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228 lines
5.1 KiB
228 lines
5.1 KiB
/*
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Copyright (c) 1998-1999 Microsoft Corporation
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*/
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#ifndef __TIMER_QUEUE__
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#define __TIMER_QUEUE__
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#include "meterf.h"
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// we don't allow timeouts greater than 1 day
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// this ensures that we don't get multiple wraparounds in the timerqueue,
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// which has a wraparound time of 49 days
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const DWORD MAX_TIMEOUT = 1000 * 60 * 60 * 24;
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const DWORD MAX_DWORD = DWORD(-1);
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class CTimerQueue;
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class CMediaPump;
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class CFilterInfo
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{
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friend CTimerQueue;
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friend CMediaPump;
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public:
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// null entries
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inline CFilterInfo(
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IN CMediaTerminalFilter *pFilter = NULL,
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IN HANDLE hWaitEvent = NULL
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);
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inline BOOL InQueue();
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inline void ScheduleNextTimeout(
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IN CTimerQueue &TimerQueue,
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IN DWORD TimeOut
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);
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LONG AddRef()
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{
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return InterlockedIncrement(&m_lRefCount);
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}
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LONG Release()
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{
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LONG l = InterlockedDecrement(&m_lRefCount);
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if (0 == l)
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{
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delete this;
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}
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return l;
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}
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private:
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LONG m_lRefCount;
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protected:
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//
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// the only way to destroy filterinfo is through Release()
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//
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inline ~CFilterInfo();
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// m_pFilter holds a refcnt.
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// the wait event is signaled when a new sample
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// is available
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CMediaTerminalFilter *m_pFilter;
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HANDLE m_hWaitEvent;
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// contains the absolute time to trigger the timeout event
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// this is based upon the value returned by timeGetTime()
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DWORD m_WaitTime;
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// prev and next ptrs in an intrusive doubly linked list
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CFilterInfo *m_pPrev;
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CFilterInfo *m_pNext;
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};
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// null entries
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inline
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CFilterInfo::CFilterInfo(
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IN CMediaTerminalFilter *pFilter, /* = NULL */
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IN HANDLE hWaitEvent /* = NULL */
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)
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: m_pFilter(pFilter),
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m_hWaitEvent(hWaitEvent),
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m_pPrev(NULL),
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m_pNext(NULL),
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m_lRefCount(0)
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{
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// either both pFilter and hWaitEvent are null, or both are non-null
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// enough to assert on this
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TM_ASSERT((NULL == pFilter) == (NULL == hWaitEvent));
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if (NULL != m_pFilter) m_pFilter->GetControllingUnknown()->AddRef();
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}
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CFilterInfo::~CFilterInfo(
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)
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{
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// release refcnt on the filter
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if (NULL != m_pFilter) m_pFilter->GetControllingUnknown()->Release();
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}
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inline BOOL
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CFilterInfo::InQueue(
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)
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{
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// either both prev/next are null or both are not null
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TM_ASSERT((NULL == m_pPrev) == (NULL == m_pNext));
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return (NULL != m_pPrev) ? TRUE : FALSE;
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}
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// ScheduleNextTimeout(2 params) - declared at the end of the file
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// as it uses CTimerQueue::Insert and has to be inline
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// CTimerQueue is a doubly linked intrusive list of CFilterInfo
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// the wait time values in the entries represents the absolute time at which
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// they must be fired.
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// we assume that the timeout values are small (<=MAX_TIMEOUT) and,
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// therefore, we can have atmost one wrap around in the list at a time.
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// to deal with a wrap around, when computing the time difference between two
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// time values, we use the least time to get to one time from the other
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// ex. MAX_DWORD-1, 5 - the difference is (MAX_DWORD - (MAX_DWORD-1) + 5)
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// this is quite reasonable as the value range is 49.1 days (MAX_DWORD)
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class CTimerQueue
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{
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public:
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inline CTimerQueue()
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{
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m_Head.m_pNext = m_Head.m_pPrev = &m_Head;
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}
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inline BOOL IsEmpty();
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DWORD GetTimeToTimeout();
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inline CFilterInfo *RemoveFirst();
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void Insert(
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IN CFilterInfo *pNewFilterInfo
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);
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BOOL Remove(
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IN CFilterInfo *pFilterInfo
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);
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protected:
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// no need to call Init
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CFilterInfo m_Head;
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inline BOOL IsHead(
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IN const CFilterInfo *pFilterInfo
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)
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{
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return (&m_Head == pFilterInfo) ? TRUE : FALSE;
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}
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// to deal with a wrap around, when computing the time difference
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// between two time values, we use the least time to get to one time
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// from the other - ex. MAX_DWORD-1, 5 - the difference is
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// (MAX_DWORD - (MAX_DWORD-1) + 5). this is quite reasonable as the
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// value range is 49.1 days (MAX_DWORD)
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DWORD GetMinDiff(
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IN DWORD Time1,
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IN DWORD Time2,
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OUT BOOL &bIsWrap
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);
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};
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inline BOOL
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CTimerQueue::IsEmpty(
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)
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{
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return IsHead(m_Head.m_pNext);
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}
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CFilterInfo *
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CTimerQueue::RemoveFirst(
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)
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{
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TM_ASSERT(!IsEmpty());
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CFilterInfo *ToReturn = m_Head.m_pNext;
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Remove(ToReturn);
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return ToReturn;
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}
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// this method has to be declared after the CTimerQueue declaration as it
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// uses its Insert method
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// this is called after returning from GetFilledBuffer. the filter suggests
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// a timeout offset for the next call into GetFilledBuffer, but the timer
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// puts a limit on the time out value to a max of MAX_TIMEOUT
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inline void
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CFilterInfo::ScheduleNextTimeout(
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IN CTimerQueue &TimerQueue,
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IN DWORD TimeOut
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)
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{
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TM_ASSERT(!InQueue());
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if (MAX_TIMEOUT < TimeOut) TimeOut = MAX_TIMEOUT;
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m_WaitTime = TimeOut + timeGetTime();
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TimerQueue.Insert(this);
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}
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#endif // __TIMER_QUEUE__
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