Leaked source code of windows server 2003
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1404 lines
58 KiB

/***************************************************************************
Copyright (c) 1999 Microsoft Corporation
Module Name:
UTIL.C
Abstract:
Utility routines for Remote NDIS Miniport driver
Environment:
kernel mode only
Notes:
THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY
KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR
PURPOSE.
Copyright (c) 1999 Microsoft Corporation. All Rights Reserved.
Revision History:
5/17/99 : created
Author:
Tom Green
****************************************************************************/
#include "precomp.h"
ULONG MsgFrameAllocs = 0;
/****************************************************************************/
/* MemAlloc */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Allocate memory */
/* */
/* Arguments: */
/* */
/* Buffer - pointer to buffer pointer */
/* Length - length of buffer to allocate */
/* */
/* Return: */
/* */
/* NDIS_STATUS */
/* */
/****************************************************************************/
NDIS_STATUS
MemAlloc(OUT PVOID *Buffer, IN UINT Length)
{
NDIS_STATUS Status;
TRACE3(("MemAlloc\n"));
ASSERT(Length != 0);
Status = NdisAllocateMemoryWithTag(Buffer,
Length,
RNDISMP_TAG_GEN_ALLOC);
// zero out allocation
if(Status == NDIS_STATUS_SUCCESS)
NdisZeroMemory(*Buffer, Length);
return Status;
} // MemAlloc
/****************************************************************************/
/* MemFree */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Free memory */
/* */
/* Arguments: */
/* */
/* Buffer - pointer to buffer */
/* Length - length of buffer to allocate */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
MemFree(IN PVOID Buffer, IN UINT Length)
{
TRACE3(("MemFree\n"));
NdisFreeMemory(Buffer, Length, 0);
} // MemFree
/****************************************************************************/
/* AddAdapter */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Add an adapter to the list of adapters associated with this driver */
/* */
/* Arguments: */
/* */
/* pAdapter - Adapter object, contains pointer to associated driver block */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
AddAdapter(IN PRNDISMP_ADAPTER pAdapter)
{
PDRIVER_BLOCK DriverBlock = pAdapter->DriverBlock;
TRACE3(("AddpAdapter\n"));
CHECK_VALID_ADAPTER(pAdapter);
// grab the global spinlock
NdisAcquireSpinLock(&RndismpGlobalLock);
pAdapter->NextAdapter = DriverBlock->AdapterList;
DriverBlock->AdapterList = pAdapter;
// keep track of number of adapters associated with this driver block
DriverBlock->NumberAdapters++;
// release global spinlock
NdisReleaseSpinLock(&RndismpGlobalLock);
} // AddAdapter
/****************************************************************************/
/* RemoveAdapter */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Remove an adapter from the list of adapters associated with this driver */
/* */
/* Arguments: */
/* */
/* pAdapter - Adapter object, contains pointer to associated driver block */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
RemoveAdapter(IN PRNDISMP_ADAPTER pAdapter)
{
PDRIVER_BLOCK DriverBlock = pAdapter->DriverBlock;
TRACE3(("RemoveAdapter\n"));
CHECK_VALID_ADAPTER(pAdapter);
// remove the adapter from the driver block list of adapters.
// grab the global spinlock
NdisAcquireSpinLock(&RndismpGlobalLock);
// see if it is the first one
if (DriverBlock->AdapterList == pAdapter)
{
DriverBlock->AdapterList = pAdapter->NextAdapter;
}
// not the first one, so walk the list
else
{
PRNDISMP_ADAPTER * ppAdapter = &DriverBlock->AdapterList;
while (*ppAdapter != pAdapter)
{
ASSERT(*ppAdapter != NULL);
ppAdapter = &((*ppAdapter)->NextAdapter);
}
*ppAdapter = pAdapter->NextAdapter;
}
// removing this adapter
DriverBlock->NumberAdapters--;
// release global spinlock
NdisReleaseSpinLock(&RndismpGlobalLock);
} // RemoveAdapter
/****************************************************************************/
/* DeviceObjectToAdapter */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Given a pointer to an FDO, return the corresponding Adapter structure, */
/* if it exists, and the driver block. */
/* */
/* Arguments: */
/* */
/* pDeviceObject - pointer to the device object to search for. */
/* ppAdapter - place to return pointer to the adapter structure. */
/* ppDriverBlock - place to return pointer to driver block. */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
DeviceObjectToAdapterAndDriverBlock(IN PDEVICE_OBJECT pDeviceObject,
OUT PRNDISMP_ADAPTER * ppAdapter,
OUT PDRIVER_BLOCK * ppDriverBlock)
{
PDRIVER_BLOCK pDriverBlock;
PRNDISMP_ADAPTER pAdapter;
pAdapter = NULL;
pDriverBlock = DeviceObjectToDriverBlock(&RndismpMiniportBlockListHead, pDeviceObject);
if (pDriverBlock != NULL)
{
NdisAcquireSpinLock(&RndismpGlobalLock);
for (pAdapter = pDriverBlock->AdapterList;
pAdapter != NULL;
pAdapter = pAdapter->NextAdapter)
{
if (pAdapter->pDeviceObject == pDeviceObject)
{
break;
}
}
NdisReleaseSpinLock(&RndismpGlobalLock);
}
*ppAdapter = pAdapter;
*ppDriverBlock = pDriverBlock;
} // DeviceObjectToAdapter
/****************************************************************************/
/* AddDriverBlock */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Add driver block to list of drivers (microports) associated with this */
/* driver */
/* */
/* Arguments: */
/* */
/* Head - head of list */
/* Item - driver block to add to list */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
AddDriverBlock(IN PDRIVER_BLOCK Head, IN PDRIVER_BLOCK Item)
{
TRACE3(("AddDriverBlock\n"));
CHECK_VALID_BLOCK(Item);
// first time through, so allocate global spinlock
if(!RndismpNumMicroports)
NdisAllocateSpinLock(&RndismpGlobalLock);
// grab the global spinlock
NdisAcquireSpinLock(&RndismpGlobalLock);
// Link the driver block on the global list of driver blocks
Item->NextDriverBlock = Head->NextDriverBlock;
Head->NextDriverBlock = Item;
// keep track of how many microports we support so we can free
// global resources
RndismpNumMicroports++;
// release global spinlock
NdisReleaseSpinLock(&RndismpGlobalLock);
} // AddDriverBlock
/****************************************************************************/
/* RemoveDriverBlock */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Remove driver block from list of drivers (microports) associated with */
/* this driver */
/* */
/* Arguments: */
/* */
/* Head - head of list */
/* Item - driver block to remove from list */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
RemoveDriverBlock(IN PDRIVER_BLOCK BlockHead, IN PDRIVER_BLOCK Item)
{
UINT NumMicroports;
PDRIVER_BLOCK Head = BlockHead;
TRACE1(("RemoveDriverBlock\n"));
CHECK_VALID_BLOCK(Item);
// grab the global spinlock
NdisAcquireSpinLock(&RndismpGlobalLock);
// Remove the driver block from the global list of driver blocks
while(Head->NextDriverBlock != Item)
{
Head = Head->NextDriverBlock;
// make sure this is valid
if(!Head)
break;
}
if(Head)
Head->NextDriverBlock = Head->NextDriverBlock->NextDriverBlock;
// keep track of how many microports we support so we can free
// global resources
RndismpNumMicroports--;
NumMicroports = RndismpNumMicroports;
// release global spinlock
NdisReleaseSpinLock(&RndismpGlobalLock);
// see if we need to free global spinlock
if(!RndismpNumMicroports)
NdisFreeSpinLock(&RndismpGlobalLock);
ASSERT(Head);
} // RemoveDriverBlock
/****************************************************************************/
/* DeviceObjectToDriverBlock */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Get driver block pointer associated with the PDO passed in */
/* */
/* Arguments: */
/* */
/* Head - head of driver block list */
/* DeviceObject - device object we want to get associated driver block for */
/* */
/* Return: */
/* */
/* PDRIVER_BLOCK */
/* */
/****************************************************************************/
PDRIVER_BLOCK
DeviceObjectToDriverBlock(IN PDRIVER_BLOCK Head,
IN PDEVICE_OBJECT DeviceObject)
{
PDRIVER_OBJECT DriverObject;
TRACE3(("DeviceObjectToDriverBlock\n"));
// grab the global spinlock
NdisAcquireSpinLock(&RndismpGlobalLock);
// get the driver object for this adapter
DriverObject = DeviceObjectToDriverObject(DeviceObject);
Head = Head->NextDriverBlock;
// walk the list of driver blocks to find a match with driver object
while(Head->DriverObject != DriverObject)
{
Head = Head->NextDriverBlock;
// break out if we are at the end of the list
if(!Head)
break;
}
// release global spinlock
NdisReleaseSpinLock(&RndismpGlobalLock);
CHECK_VALID_BLOCK(Head);
return Head;
} // DeviceObjectToDriverBlock
/****************************************************************************/
/* DriverObjectToDriverBlock */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Get driver block pointer associated with the Driver Object passed in */
/* */
/* Arguments: */
/* */
/* Head - head of driver block list */
/* DriverObject - Driver object we want to get associated driver block for */
/* */
/* Return: */
/* */
/* PDRIVER_BLOCK */
/* */
/****************************************************************************/
PDRIVER_BLOCK
DriverObjectToDriverBlock(IN PDRIVER_BLOCK Head,
IN PDRIVER_OBJECT DriverObject)
{
TRACE3(("DriverObjectToDriverBlock\n"));
// grab the global spinlock
NdisAcquireSpinLock(&RndismpGlobalLock);
Head = Head->NextDriverBlock;
// walk the list of driver blocks to find a match with driver object
while(Head->DriverObject != DriverObject)
{
Head = Head->NextDriverBlock;
// break out if we are at the end of the list
if(!Head)
break;
}
// release global spinlock
NdisReleaseSpinLock(&RndismpGlobalLock);
CHECK_VALID_BLOCK(Head);
return Head;
} // DriverObjectToDriverBlock
/****************************************************************************/
/* AllocateMsgFrame */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Allocate a frame that holds context about a message we are about to */
/* send. */
/* */
/* Arguments: */
/* */
/* pAdapter - Adapter object */
/* */
/* Return: */
/* */
/* PRNDISMP_MESSAGE_FRAME */
/* */
/****************************************************************************/
PRNDISMP_MESSAGE_FRAME
AllocateMsgFrame(IN PRNDISMP_ADAPTER pAdapter)
{
PRNDISMP_MESSAGE_FRAME pMsgFrame;
#ifndef DONT_USE_LOOKASIDE_LIST
pMsgFrame = (PRNDISMP_MESSAGE_FRAME)
NdisAllocateFromNPagedLookasideList(&pAdapter->MsgFramePool);
#else
{
NDIS_STATUS Status;
Status = MemAlloc(&pMsgFrame, sizeof(RNDISMP_MESSAGE_FRAME));
if (Status != NDIS_STATUS_SUCCESS)
{
pMsgFrame = NULL;
}
}
#endif // DONT_USE_LOOKASIDE_LIST
if (pMsgFrame)
{
NdisZeroMemory(pMsgFrame, sizeof(*pMsgFrame));
pMsgFrame->pAdapter = pAdapter;
pMsgFrame->RequestId = NdisInterlockedIncrement(&pAdapter->RequestId);
pMsgFrame->Signature = FRAME_SIGNATURE;
pMsgFrame->RefCount = 1;
NdisInterlockedIncrement(&MsgFrameAllocs);
}
#if DBG
else
{
TRACE1(("AllocateMsgFrame: pAdapter %x, MsgFramePool at %x, alloc failed, count %d\n",
pAdapter, &pAdapter->MsgFramePool, MsgFrameAllocs));
DbgBreakPoint();
}
#endif // DBG
return (pMsgFrame);
}
/****************************************************************************/
/* DereferenceMsgFrame */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Free a message frame and any associated resources. */
/* */
/* Arguments: */
/* */
/* Frame - pointer to frame */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
DereferenceMsgFrame(IN PRNDISMP_MESSAGE_FRAME pMsgFrame)
{
PRNDISMP_ADAPTER pAdapter;
PMDL pMdl;
PUCHAR pMessage;
CHECK_VALID_FRAME(pMsgFrame);
if (NdisInterlockedDecrement(&pMsgFrame->RefCount) == 0)
{
//
// Mess up the contents slightly to catch bugs resulting from
// improper reuse of this frame after it is freed.
//
pMsgFrame->Signature++;
pMdl = pMsgFrame->pMessageMdl;
pMsgFrame->pMessageMdl = NULL;
if (pMdl)
{
pMessage = RNDISMP_GET_MDL_ADDRESS(pMdl);
}
else
{
pMessage = NULL;
}
if (pMessage)
{
MemFree(pMessage, -1);
IoFreeMdl(pMdl);
}
pAdapter = pMsgFrame->pAdapter;
#ifndef DONT_USE_LOOKASIDE_LIST
NdisFreeToNPagedLookasideList(&pAdapter->MsgFramePool, pMsgFrame);
#else
MemFree(pMsgFrame, sizeof(RNDISMP_MESSAGE_FRAME));
#endif
NdisInterlockedDecrement(&MsgFrameAllocs);
}
} // DereferenceMsgFrame
/****************************************************************************/
/* ReferenceMsgFrame */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Add a ref count to a message frame */
/* */
/* Arguments: */
/* */
/* Frame - pointer to frame */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
ReferenceMsgFrame(IN PRNDISMP_MESSAGE_FRAME pMsgFrame)
{
NdisInterlockedIncrement(&pMsgFrame->RefCount);
}
/****************************************************************************/
/* KeepAliveTimerHandler */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Timer that keeps tabs on messages coming up from the device and */
/* sends a "KeepAlive" message if the device has been inactive too long */
/* */
/* Arguments: */
/* */
/* SystemSpecific1 - Don't care */
/* Context - pAdapter object */
/* SystemSpecific2 - Don't care */
/* SystemSpecific3 - Don't care */
/* */
/* Return: */
/* */
/* PNDIS_PACKET */
/* */
/****************************************************************************/
VOID
KeepAliveTimerHandler(IN PVOID SystemSpecific1,
IN PVOID Context,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3)
{
PRNDISMP_ADAPTER pAdapter;
PRNDISMP_MESSAGE_FRAME pMsgFrame;
ULONG CurrentTime;
// get adapter context
pAdapter = PRNDISMP_ADAPTER_FROM_CONTEXT_HANDLE(Context);
TRACE2(("KeepAliveTimerHandler\n"));
do
{
// get current tick (in milliseconds)
NdisGetSystemUpTime(&CurrentTime);
// check and see if too much time has elapsed since we
// got the last message from the device
RNDISMP_ACQUIRE_ADAPTER_LOCK(pAdapter);
if (((CurrentTime - pAdapter->LastMessageFromDevice) > KEEP_ALIVE_TIMER))
{
// see if we have a keep alive message pending, so let's bong this
if (pAdapter->KeepAliveMessagePending)
{
TRACE1(("KeepAliveTimer: Adapter %p, message pending: last msg %d, cur %d\n",
pAdapter, pAdapter->LastMessageFromDevice, CurrentTime));
// indicate later from check for hang handler
pAdapter->NeedReset = TRUE;
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
RNDISMP_INCR_STAT(pAdapter, KeepAliveTimeout);
break;
}
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
// too much time has elapsed, send down a keep alive message
pMsgFrame = BuildRndisMessageCommon(pAdapter,
NULL,
REMOTE_NDIS_KEEPALIVE_MSG,
0,
NULL,
0);
if (pMsgFrame)
{
RNDISMP_ACQUIRE_ADAPTER_LOCK(pAdapter);
pAdapter->KeepAliveMessagePending = TRUE;
pAdapter->KeepAliveMessagePendingId = pMsgFrame->RequestId;
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
TRACE2(("Sending Keepalive(%d) on Adapter %p: last rcv %d, cur %d\n",
pMsgFrame->RequestId, pAdapter, pAdapter->LastMessageFromDevice, CurrentTime ));
// send the message to the microport
RNDISMP_SEND_TO_MICROPORT(pAdapter, pMsgFrame, FALSE, CompleteSendKeepAlive);
}
}
else
{
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
}
}
while (FALSE);
// see if the timer was cancelled somewhere
if (!pAdapter->TimerCancelled)
{
// restart timer
NdisSetTimer(&pAdapter->KeepAliveTimer, KEEP_ALIVE_TIMER / 2);
}
} // KeepAliveTimerHandler
/****************************************************************************/
/* CompleteSendKeepAlive */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Callback routine to handle completion of send by the microport, for */
/* a keepalive message. */
/* */
/* Arguments: */
/* */
/* pMsgFrame - Pointer to message frame describing the message */
/* SendStatus - Status returned by microport */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
CompleteSendKeepAlive(IN PRNDISMP_MESSAGE_FRAME pMsgFrame,
IN NDIS_STATUS SendStatus)
{
PRNDISMP_ADAPTER pAdapter;
pAdapter = pMsgFrame->pAdapter;
DereferenceMsgFrame(pMsgFrame);
if (SendStatus != NDIS_STATUS_SUCCESS)
{
TRACE1(("KeepAlive send failure %x on Adapter %x\n",
SendStatus, pAdapter));
RNDISMP_ACQUIRE_ADAPTER_LOCK(pAdapter);
pAdapter->KeepAliveMessagePending = FALSE;
pAdapter->NeedReset = FALSE;
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
}
} // CompleteSendKeepAlive
/****************************************************************************/
/* BuildRndisMessageCommon */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Allocate resources for meesage and frame and build RNDIS message */
/* */
/* Arguments: */
/* */
/* pAdapter - adapter object */
/* pVc - optionally, VC on which this message is sent. */
/* NdisMessageType - RNDIS message type */
/* Oid - the NDIS_OID to process. */
/* InformationBuffer - Holds the data to be set. */
/* InformationBufferLength - The length of InformationBuffer. */
/* */
/* Return: */
/* */
/* PRNDISMP_MESSAGE_FRAME */
/* */
/****************************************************************************/
PRNDISMP_MESSAGE_FRAME
BuildRndisMessageCommon(IN PRNDISMP_ADAPTER pAdapter,
IN PRNDISMP_VC pVc OPTIONAL,
IN UINT NdisMessageType,
IN NDIS_OID Oid,
IN PVOID InformationBuffer,
IN ULONG InformationBufferLength)
{
PRNDIS_MESSAGE pMessage;
UINT MessageSize;
PRNDISMP_MESSAGE_FRAME pMsgFrame;
TRACE2(("BuildRndisMessageCommon\n"));
pMsgFrame = NULL;
switch(NdisMessageType)
{
case REMOTE_NDIS_INITIALIZE_MSG:
{
PRNDIS_INITIALIZE_REQUEST pInitRequest;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_INITIALIZE_REQUEST);
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
TRACE1(("RNDISMP: Init Req message %x, Type %d, Length %d, MaxRcv %d\n",
pMessage, pMessage->NdisMessageType, pMessage->MessageLength, pAdapter->MaxReceiveSize));
pInitRequest = &pMessage->Message.InitializeRequest;
pInitRequest->RequestId = pMsgFrame->RequestId;
pInitRequest->MajorVersion = RNDIS_MAJOR_VERSION;
pInitRequest->MinorVersion = RNDIS_MINOR_VERSION;
pInitRequest->MaxTransferSize = pAdapter->MaxReceiveSize;
break;
}
case REMOTE_NDIS_HALT_MSG:
{
PRNDIS_HALT_REQUEST pHaltRequest;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_HALT_REQUEST);
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
pHaltRequest = &pMessage->Message.HaltRequest;
pHaltRequest->RequestId = pMsgFrame->RequestId;
break;
}
case REMOTE_NDIS_QUERY_MSG:
{
PRNDIS_QUERY_REQUEST pQueryRequest;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_QUERY_REQUEST) + InformationBufferLength;
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
pQueryRequest = &pMessage->Message.QueryRequest;
pQueryRequest->RequestId = pMsgFrame->RequestId;
pQueryRequest->Oid = Oid;
pQueryRequest->InformationBufferLength = InformationBufferLength;
pQueryRequest->InformationBufferOffset = sizeof(RNDIS_QUERY_REQUEST);
if (pVc == NULL)
{
pQueryRequest->DeviceVcHandle = NULL_DEVICE_CONTEXT;
}
else
{
pQueryRequest->DeviceVcHandle = pVc->DeviceVcContext;
}
TRACE2(("Query OID %x, Len %d, RequestId %08X\n",
Oid, InformationBufferLength, pQueryRequest->RequestId));
// copy information buffer
RNDISMP_MOVE_MEM(RNDISMP_GET_INFO_BUFFER_FROM_QUERY_MSG(pQueryRequest),
InformationBuffer,
InformationBufferLength);
break;
}
case REMOTE_NDIS_SET_MSG:
{
PRNDIS_SET_REQUEST pSetRequest;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_SET_REQUEST) + InformationBufferLength;
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
pSetRequest = &pMessage->Message.SetRequest;
pSetRequest->RequestId = pMsgFrame->RequestId;
pSetRequest->Oid = Oid;
pSetRequest->InformationBufferLength = InformationBufferLength;
pSetRequest->InformationBufferOffset = sizeof(RNDIS_SET_REQUEST);
if (pVc == NULL)
{
pSetRequest->DeviceVcHandle = NULL_DEVICE_CONTEXT;
}
else
{
pSetRequest->DeviceVcHandle = pVc->DeviceVcContext;
}
// copy information buffer
RNDISMP_MOVE_MEM(RNDISMP_GET_INFO_BUFFER_FROM_QUERY_MSG(pSetRequest),
InformationBuffer,
InformationBufferLength);
break;
}
case REMOTE_NDIS_RESET_MSG:
{
PRNDIS_RESET_REQUEST pResetRequest;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_RESET_REQUEST);
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
pResetRequest = &pMessage->Message.ResetRequest;
pResetRequest->Reserved = 0;
break;
}
case REMOTE_NDIS_KEEPALIVE_MSG:
{
PRNDIS_KEEPALIVE_REQUEST pKeepAliveRequest;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_KEEPALIVE_REQUEST);
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
pKeepAliveRequest = &pMessage->Message.KeepaliveRequest;
pKeepAliveRequest->RequestId = pMsgFrame->RequestId;
break;
}
case REMOTE_NDIS_KEEPALIVE_CMPLT:
{
PRNDIS_KEEPALIVE_COMPLETE pKeepAliveComplete;
MessageSize = RNDIS_MESSAGE_SIZE(RNDIS_KEEPALIVE_COMPLETE);
// get a message and request frame
pMsgFrame = AllocateMessageAndFrame(pAdapter,
MessageSize);
if (pMsgFrame == NULL)
{
break;
}
pMessage = RNDISMP_GET_MSG_FROM_FRAME(pMsgFrame);
pMessage->NdisMessageType = NdisMessageType;
pMsgFrame->NdisMessageType = NdisMessageType;
pKeepAliveComplete = &pMessage->Message.KeepaliveComplete;
pKeepAliveComplete->RequestId = *(RNDIS_REQUEST_ID *)InformationBuffer;
pKeepAliveComplete->Status = NDIS_STATUS_SUCCESS;
break;
}
default:
TRACE2(("Invalid NdisMessageType (%08X)\n", NdisMessageType));
ASSERT(FALSE);
break;
}
return pMsgFrame;
} // BuildRndisMessageCommon
/****************************************************************************/
/* AllocateMessageAndFrame */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Allocate a message and frame for an RNDIS message */
/* */
/* Arguments: */
/* */
/* pAdapter - pAdapter object */
/* MessageSize - size of RNDIS message */
/* */
/* Return: */
/* */
/* PRNDISMP_MESSAGE_FRAME */
/* */
/****************************************************************************/
PRNDISMP_MESSAGE_FRAME
AllocateMessageAndFrame(IN PRNDISMP_ADAPTER pAdapter,
IN UINT MessageSize)
{
PRNDIS_MESSAGE pMessage = NULL;
PRNDISMP_MESSAGE_FRAME pMsgFrame = NULL;
NDIS_STATUS Status = NDIS_STATUS_SUCCESS;
PMDL pMdl = NULL;
TRACE3(("AllocateMessageAndFrame\n"));
do
{
// allocate a buffer for RNDIS message
Status = MemAlloc(&pMessage, MessageSize);
// see if we got our buffer
if (Status != NDIS_STATUS_SUCCESS)
{
break;
}
// allocate an MDL to describe this message.
pMdl = IoAllocateMdl(
pMessage,
MessageSize,
FALSE,
FALSE,
NULL);
if (pMdl == NULL)
{
Status = NDIS_STATUS_RESOURCES;
break;
}
MmBuildMdlForNonPagedPool(pMdl);
// got the message buffer, now allocate a frame
pMsgFrame = AllocateMsgFrame(pAdapter);
if (pMsgFrame == NULL)
{
Status = NDIS_STATUS_RESOURCES;
break;
}
// got everything, so fill in some frame things
pMsgFrame->pMessageMdl = pMdl;
pMessage->MessageLength = MessageSize;
}
while (FALSE);
if (Status != NDIS_STATUS_SUCCESS)
{
if (pMdl)
{
IoFreeMdl(pMdl);
}
if (pMessage)
{
MemFree(pMessage, MessageSize);
}
}
return pMsgFrame;
} // AllocateMessageAndFrame
/****************************************************************************/
/* FreeAdapter */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Free all memory allocations to do with an Adapter structure */
/* */
/* Arguments: */
/* */
/* pAdapter - pointer to the adapter to be freed. */
/* */
/* Return: */
/* */
/* VOID */
/****************************************************************************/
VOID
FreeAdapter(IN PRNDISMP_ADAPTER Adapter)
{
// free up transport resources
FreeTransportResources(Adapter);
if (Adapter->DriverOIDList)
{
MemFree(Adapter->DriverOIDList, RndismpSupportedOidsNum*sizeof(NDIS_OID));
}
if (Adapter->FriendlyNameAnsi.Buffer)
{
MemFree(Adapter->FriendlyNameAnsi.Buffer, Adapter->FriendlyNameAnsi.MaximumLength);
}
if (Adapter->FriendlyNameUnicode.Buffer)
{
MemFree(Adapter->FriendlyNameUnicode.Buffer, Adapter->FriendlyNameUnicode.MaximumLength);
}
#if DBG
if (Adapter->pSendLogBuffer)
{
MemFree(Adapter->pSendLogBuffer, Adapter->LogBufferSize);
Adapter->pSendLogBuffer = NULL;
}
#endif // DBG
MemFree(Adapter, sizeof(RNDISMP_ADAPTER));
}
/****************************************************************************/
/* AllocateVc */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Allocate a VC structure */
/* */
/* Arguments: */
/* */
/* pAdapter - adapter object */
/* */
/* Return: */
/* */
/* PRNDISMP_VC */
/* */
/****************************************************************************/
PRNDISMP_VC
AllocateVc(IN PRNDISMP_ADAPTER pAdapter)
{
PRNDISMP_VC pVc;
NDIS_STATUS Status;
Status = MemAlloc(&pVc, sizeof(RNDISMP_VC));
if (Status == NDIS_STATUS_SUCCESS)
{
pVc->pAdapter = pAdapter;
pVc->VcState = RNDISMP_VC_ALLOCATED;
pVc->CallState = RNDISMP_CALL_IDLE;
pVc->RefCount = 0;
RNDISMP_INIT_LOCK(&pVc->Lock);
EnterVcIntoHashTable(pAdapter, pVc);
}
else
{
pVc = NULL;
}
return pVc;
}
/****************************************************************************/
/* DeallocateVc */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Deallocate a VC structure. */
/* */
/* Arguments: */
/* */
/* pVc - Pointer to VC being deallocated. */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
DeallocateVc(IN PRNDISMP_VC pVc)
{
ASSERT(pVc->RefCount == 0);
ASSERT(pVc->VcState == RNDISMP_VC_ALLOCATED);
RemoveVcFromHashTable(pVc->pAdapter, pVc);
MemFree(pVc, sizeof(RNDISMP_VC));
}
/****************************************************************************/
/* LookupVcId */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Search for a VC structure that matches a given VC Id. */
/* If we find the VC, we reference it and return it. */
/* */
/* Arguments: */
/* */
/* Adapter - adapter object */
/* VcId - Id to search for */
/* */
/* Notes: */
/* */
/* This routine is called with the adapter lock held! */
/* */
/* Return: */
/* */
/* PRNDISMP_VC - pointer to VC, if one exists */
/* */
/****************************************************************************/
PRNDISMP_VC
LookupVcId(IN PRNDISMP_ADAPTER pAdapter,
IN UINT32 VcId)
{
PLIST_ENTRY pVcEnt;
PRNDISMP_VC pVc;
ULONG VcIdHash;
PRNDISMP_VC_HASH_TABLE pVcHashTable;
BOOLEAN bFound = FALSE;
VcIdHash = RNDISMP_HASH_VCID(VcId);
pVcHashTable = pAdapter->pVcHashTable;
do
{
if (pVcHashTable == NULL)
{
pVc = NULL;
break;
}
for (pVcEnt = pVcHashTable->HashEntry[VcIdHash].Flink;
pVcEnt != &pVcHashTable->HashEntry[VcIdHash];
pVcEnt = pVcEnt->Flink)
{
pVc = CONTAINING_RECORD(pVcEnt, RNDISMP_VC, VcList);
if (pVc->VcId == VcId)
{
bFound = TRUE;
RNDISMP_REF_VC(pVc);
break;
}
}
if (!bFound)
{
pVc = NULL;
}
}
while (FALSE);
return pVc;
}
/****************************************************************************/
/* EnterVcIntoHashTable */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Link a VC into the hash table after assigning it a VC Id. */
/* */
/* Arguments: */
/* */
/* pAdapter - adapter object */
/* pVc - VC to link to the above adapter */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
EnterVcIntoHashTable(IN PRNDISMP_ADAPTER pAdapter,
IN PRNDISMP_VC pVc)
{
PRNDISMP_VC pExistingVc;
PRNDISMP_VC_HASH_TABLE pVcHashTable;
UINT32 VcId;
ULONG VcIdHash;
RNDISMP_ACQUIRE_ADAPTER_LOCK(pAdapter);
//
// We pick the next sequentially higher Vc Id value for this VC,
// but check to see if it is already in use...
//
do
{
pAdapter->LastVcId++;
// Never allocate the value 0.
if (pAdapter->LastVcId == 0)
{
pAdapter->LastVcId++;
}
VcId = pAdapter->LastVcId;
pExistingVc = LookupVcId(pAdapter, VcId);
}
while (pExistingVc != NULL);
pVcHashTable = pAdapter->pVcHashTable;
pVc->VcId = VcId;
VcIdHash = RNDISMP_HASH_VCID(VcId);
InsertTailList(&pVcHashTable->HashEntry[VcIdHash], &pVc->VcList);
pVcHashTable->NumEntries++;
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
}
/****************************************************************************/
/* RemoveVcFromHashTable */
/****************************************************************************/
/* */
/* Routine Description: */
/* */
/* Unlink a VC from the adapter hash table. */
/* */
/* Arguments: */
/* */
/* pAdapter - adapter object */
/* pVc - VC to be unlinked. */
/* */
/* Return: */
/* */
/* VOID */
/* */
/****************************************************************************/
VOID
RemoveVcFromHashTable(IN PRNDISMP_ADAPTER pAdapter,
IN PRNDISMP_VC pVc)
{
RNDISMP_ACQUIRE_ADAPTER_LOCK(pAdapter);
RemoveEntryList(&pVc->VcList);
pAdapter->pVcHashTable->NumEntries--;
RNDISMP_RELEASE_ADAPTER_LOCK(pAdapter);
}