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windows-xp/Source/XPSP1/NT/net/irda/samples/nscirda/resource.c

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/*
************************************************************************
*
* RESOURCE.c
*
*
* Portions Copyright (C) 1996-2001 National Semiconductor Corp.
* All rights reserved.
* Copyright (C) 1996-2001 Microsoft Corporation. All Rights Reserved.
*
*
*
*************************************************************************
*/
#include "nsc.h"
/*
*************************************************************************
* MyMemAlloc
*************************************************************************
*
*/
PVOID MyMemAlloc(UINT size, BOOLEAN isDmaBuf)
{
NDIS_STATUS stat;
PVOID memptr;
if (isDmaBuf){
NDIS_PHYSICAL_ADDRESS maxAddr = NDIS_PHYSICAL_ADDRESS_CONST(0x0fffff, 0);
stat = NdisAllocateMemory( &memptr,
size,
NDIS_MEMORY_CONTIGUOUS|NDIS_MEMORY_NONCACHED,
maxAddr);
}
else {
stat = NdisAllocateMemoryWithTag(
&memptr,
size,
'rIsN'
);
}
if (stat == NDIS_STATUS_SUCCESS){
NdisZeroMemory((PVOID)memptr, size);
}
else {
DBGERR(("Memory allocation failed"));
memptr = NULL;
}
return memptr;
}
/*
*************************************************************************
* MyMemFree
*************************************************************************
*
*/
VOID MyMemFree(PVOID memptr, UINT size, BOOLEAN isDmaBuf)
{
UINT flags = (isDmaBuf) ? NDIS_MEMORY_CONTIGUOUS|NDIS_MEMORY_NONCACHED : 0;
NdisFreeMemory(memptr, size, flags);
}
/*
*************************************************************************
* NewDevice
*************************************************************************
*
*/
IrDevice *NewDevice()
{
IrDevice *newdev;
newdev = MyMemAlloc(sizeof(IrDevice), FALSE);
if (newdev){
InitDevice(newdev);
}
return newdev;
}
/*
*************************************************************************
* FreeDevice
*************************************************************************
*
*/
VOID FreeDevice(IrDevice *dev)
{
CloseDevice(dev);
MyMemFree((PVOID)dev, sizeof(IrDevice), FALSE);
}
/*
*************************************************************************
* InitDevice
*************************************************************************
*
* Zero out the device object.
*
* Allocate the device object's spinlock, which will persist while
* the device is opened and closed.
*
*/
VOID InitDevice(IrDevice *thisDev)
{
NdisZeroMemory((PVOID)thisDev, sizeof(IrDevice));
NdisInitializeListHead(&thisDev->SendQueue);
NdisAllocateSpinLock(&thisDev->QueueLock);
NdisInitializeTimer(&thisDev->TurnaroundTimer,
DelayedWrite,
thisDev);
NdisInitializeListHead(&thisDev->rcvBufBuf);
NdisInitializeListHead(&thisDev->rcvBufFree);
NdisInitializeListHead(&thisDev->rcvBufFull);
NdisInitializeListHead(&thisDev->rcvBufPend);
}
/*
*************************************************************************
* OpenDevice
*************************************************************************
*
* Allocate resources for a single device object.
*
* This function should be called with device lock already held.
*
*/
BOOLEAN OpenDevice(IrDevice *thisDev)
{
BOOLEAN result = FALSE;
NDIS_STATUS stat;
UINT bufIndex;
DBGOUT(("OpenDevice()"));
if (!thisDev){
return FALSE;
}
/*
* Allocate the NDIS packet and NDIS buffer pools
* for this device's RECEIVE buffer queue.
* Our receive packets must only contain one buffer apiece,
* so #buffers == #packets.
*/
NdisAllocatePacketPool(&stat, &thisDev->packetPoolHandle, NUM_RCV_BUFS, 24);
if (stat != NDIS_STATUS_SUCCESS){
goto _openDone;
}
NdisAllocateBufferPool(&stat, &thisDev->bufferPoolHandle, NUM_RCV_BUFS);
if (stat != NDIS_STATUS_SUCCESS){
goto _openDone;
}
/*
* Initialize each of the RECEIVE packet objects for this device.
*/
for (bufIndex = 0; bufIndex < NUM_RCV_BUFS; bufIndex++){
rcvBuffer *rcvBuf = MyMemAlloc(sizeof(rcvBuffer), FALSE);
PVOID buf;
if (!rcvBuf)
{
goto _openDone;
}
rcvBuf->state = STATE_FREE;
rcvBuf->isDmaBuf = FALSE;
/*
* Allocate a data buffer
*
* This buffer gets swapped with the one on comPortInfo
* and must be the same size.
*/
rcvBuf->dataBuf = NULL;
buf = MyMemAlloc(RCV_BUFFER_SIZE, TRUE);
if (!buf){
goto _openDone;
}
// We treat the beginning of the buffer as a LIST_ENTRY.
// Normally we would use NDISSynchronizeInsertHeadList, but the
// Interrupt hasn't been registered yet.
InsertHeadList(&thisDev->rcvBufBuf, (PLIST_ENTRY)buf);
/*
* Allocate the NDIS_PACKET.
*/
NdisAllocatePacket(&stat, &rcvBuf->packet, thisDev->packetPoolHandle);
if (stat != NDIS_STATUS_SUCCESS){
goto _openDone;
}
#if 1
/*
* For future convenience, set the MiniportReserved portion of the packet
* to the index of the rcv buffer that contains it.
* This will be used in ReturnPacketHandler.
*/
*(ULONG_PTR *)rcvBuf->packet->MiniportReserved = (ULONG_PTR)rcvBuf;
#endif
rcvBuf->dataLen = 0;
InsertHeadList(&thisDev->rcvBufFree, &rcvBuf->listEntry);
}
/*
* Set mediaBusy to TRUE initially. That way, we won't
* IndicateStatus to the protocol in the ISR unless the
* protocol has expressed interest by clearing this flag
* via MiniportSetInformation(OID_IRDA_MEDIA_BUSY).
*/
thisDev->mediaBusy = FALSE;
thisDev->haveIndicatedMediaBusy = TRUE;
/*
* Will set speed to 9600 baud initially.
*/
thisDev->linkSpeedInfo = &supportedBaudRateTable[BAUDRATE_9600];
thisDev->lastPacketAtOldSpeed = NULL;
thisDev->setSpeedAfterCurrentSendPacket = FALSE;
result = TRUE;
_openDone:
if (!result){
/*
* If we're failing, close the device to free up any resources
* that were allocated for it.
*/
CloseDevice(thisDev);
DBGOUT(("OpenDevice() failed"));
}
else {
DBGOUT(("OpenDevice() succeeded"));
}
return result;
}
/*
*************************************************************************
* CloseDevice
*************************************************************************
*
* Free the indicated device's resources.
*
*
* Called for shutdown and reset.
* Don't clear ndisAdapterHandle, since we might just be resetting.
* This function should be called with device lock held.
*
*
*/
VOID CloseDevice(IrDevice *thisDev)
{
PLIST_ENTRY ListEntry;
DBGOUT(("CloseDevice()"));
if (!thisDev){
return;
}
/*
* Free all resources for the RECEIVE buffer queue.
*/
while (!IsListEmpty(&thisDev->rcvBufFree))
{
rcvBuffer *rcvBuf;
ListEntry = RemoveHeadList(&thisDev->rcvBufFree);
rcvBuf = CONTAINING_RECORD(ListEntry,
rcvBuffer,
listEntry);
if (rcvBuf->packet){
NdisFreePacket(rcvBuf->packet);
rcvBuf->packet = NULL;
}
MyMemFree(rcvBuf, sizeof(rcvBuffer), FALSE);
}
while (!IsListEmpty(&thisDev->rcvBufBuf))
{
ListEntry = RemoveHeadList(&thisDev->rcvBufBuf);
MyMemFree(ListEntry, RCV_BUFFER_SIZE, TRUE);
}
/*
* Free the packet and buffer pool handles for this device.
*/
if (thisDev->packetPoolHandle){
NdisFreePacketPool(thisDev->packetPoolHandle);
thisDev->packetPoolHandle = NULL;
}
if (thisDev->bufferPoolHandle){
NdisFreeBufferPool(thisDev->bufferPoolHandle);
thisDev->bufferPoolHandle = NULL;
}
/*
* Free all resources for the SEND buffer queue.
*/
while (ListEntry = NdisInterlockedRemoveHeadList(&thisDev->SendQueue, &thisDev->QueueLock)){
// NDIS says we shouldn't try to complete any pending send packets
// because we shouldn't have any packets around to send. If we do,
// it's an NDIS bug.
ASSERT(0);
}
thisDev->mediaBusy = FALSE;
thisDev->haveIndicatedMediaBusy = FALSE;
thisDev->linkSpeedInfo = NULL;
}