// called on thread to process any active requests
void
CAsyncIo::ProcessRequests(void)
{
// lock to get the item and increment the outstanding count
CAsyncRequest * preq = NULL;
for(;;)
{
{
CAutoLock lock(&m_csLists);
preq = GetWorkItem();
if(preq == NULL)
{
// done
return;
}
// one more item not on the done or work list
m_cItemsOut++;
// release critsec
}
preq->Complete();
// regain critsec to replace on done list
{
CAutoLock l(&m_csLists);
PutDoneItem(preq);
if(--m_cItemsOut == 0)
{
if(m_bWaiting)
m_evAllDone.Set();
}
}
}
}
void
CAsyncIo::ProcessRequests(void)
{
CAsyncRequest * preq = NULL;
for (;;) {
{
CAutoLock lock(&m_csLists);
preq = GetWorkItem();
if (preq == NULL) {
return;
}
m_cItemsOut++;
}
preq->Complete();
{
CAutoLock l(&m_csLists);
PutDoneItem(preq);
if (--m_cItemsOut == 0) {
if (m_bWaiting) {
m_evAllDone.Set();
}
}
}
}
}
HRESULT
CAsyncIo::BeginFlush()
{
{
CAutoLock lock(&m_csLists);
m_bFlushing = TRUE;
CAsyncRequest * preq;
while(preq = GetWorkItem()) {
preq->Cancel();
PutDoneItem(preq);
}
if (m_cItemsOut > 0) {
ASSERT(!m_bWaiting);
m_bWaiting = TRUE;
} else {
m_evDone.Set();
return S_OK;
}
}
ASSERT(m_bWaiting);
for (;;) {
m_evAllDone.Wait();
{
CAutoLock lock(&m_csLists);
if (m_cItemsOut == 0) {
m_bWaiting = FALSE;
m_evDone.Set();
return S_OK;
}
}
}
}
// cancel all items on the worklist onto the done list
// and refuse further requests or further WaitForNext calls
// until the end flush
//
// WaitForNext must return with NULL only if there are no successful requests.
// So Flush does the following:
// 1. set m_bFlushing ensures no more requests succeed
// 2. move all items from work list to the done list.
// 3. If there are any outstanding requests, then we need to release the
// critsec to allow them to complete. The m_bWaiting as well as ensuring
// that we are signalled when they are all done is also used to indicate
// to WaitForNext that it should continue to block.
// 4. Once all outstanding requests are complete, we force m_evDone set and
// m_bFlushing set and m_bWaiting false. This ensures that WaitForNext will
// not block when the done list is empty.
HRESULT
CAsyncIo::BeginFlush()
{
// hold the lock while emptying the work list
{
CAutoLock lock(&m_csLists);
// prevent further requests being queued.
// Also WaitForNext will refuse to block if this is set
// unless m_bWaiting is also set which it will be when we release
// the critsec if there are any outstanding).
m_bFlushing = TRUE;
CAsyncRequest * preq;
while((preq = GetWorkItem()) != 0)
{
preq->Cancel();
PutDoneItem(preq);
}
// now wait for any outstanding requests to complete
if(m_cItemsOut > 0)
{
// can be only one person waiting
ASSERT(!m_bWaiting);
// this tells the completion routine that we need to be
// signalled via m_evAllDone when all outstanding items are
// done. It also tells WaitForNext to continue blocking.
m_bWaiting = TRUE;
}
else
{
// all done
// force m_evDone set so that even if list is empty,
// WaitForNext will not block
// don't do this until we are sure that all
// requests are on the done list.
m_evDone.Set();
return S_OK;
}
}
ASSERT(m_bWaiting);
// wait without holding critsec
for(;;)
{
m_evAllDone.Wait();
{
// hold critsec to check
CAutoLock lock(&m_csLists);
if(m_cItemsOut == 0)
{
// now we are sure that all outstanding requests are on
// the done list and no more will be accepted
m_bWaiting = FALSE;
// force m_evDone set so that even if list is empty,
// WaitForNext will not block
// don't do this until we are sure that all
// requests are on the done list.
m_evDone.Set();
return S_OK;
}
}
}
}
