コード例 #1
0
        /// <summary>
        /// Schedule 'callback' to be called in the next GC.  If the callback returns true it is
        /// rescheduled for the next Gen 2 GC.  Otherwise the callbacks stop.
        ///
        /// NOTE: This callback will be kept alive until either the callback function returns false,
        /// or the target object dies.
        /// </summary>
        public static void Register(Func <object, bool> callback, object targetObj)
        {
            // Create a unreachable object that remembers the callback function and target object.
            Gen2GcCallback gcCallback = new Gen2GcCallback();

            gcCallback.Setup(callback, targetObj);
        }
コード例 #2
0
        private void Restock(out object returnBuffer)
        {
            lock (this)
            {
                // Try again after getting the lock as another thread could have just filled the free list.  If we don't check
                // then we unnecessarily grab a new set of buffers because we think we are out.
                if (m_FreeList.TryPop(out returnBuffer))
                {
                    return;
                }

                // Lazy init, Ask that TrimFreeListIfNeeded be called on every Gen 2 GC.
                if (m_restockSize == 0)
                {
                    Gen2GcCallback.Register(Gen2GcCallbackFunc, this);
                }

                // Indicate to the trimming policy that the free list is insufficent.
                m_moreThanFreeListNeeded = true;
                PinnableBufferCacheEventSource.Log.AllocateBufferFreeListEmpty(m_CacheName, m_NotGen2.Count);

                // Get more buffers if needed.
                if (m_NotGen2.Count == 0)
                {
                    CreateNewBuffers();
                }

                // We have no buffers in the aged freelist, so get one from the newer list.   Try to pick the best one.
                // Debug.Assert(m_NotGen2.Count != 0);
                int idx = m_NotGen2.Count - 1;
                if (GC.GetGeneration(m_NotGen2[idx]) < GC.MaxGeneration && GC.GetGeneration(m_NotGen2[0]) == GC.MaxGeneration)
                {
                    idx = 0;
                }
                returnBuffer = m_NotGen2[idx];
                m_NotGen2.RemoveAt(idx);

                // Remember any sub-optimial buffer so we don't put it on the free list when it gets freed.
                if (PinnableBufferCacheEventSource.Log.IsEnabled() && GC.GetGeneration(returnBuffer) < GC.MaxGeneration)
                {
                    PinnableBufferCacheEventSource.Log.AllocateBufferFromNotGen2(m_CacheName, m_NotGen2.Count);
                }

                // If we have a Gen1 collection, then everything on m_NotGen2 should have aged.  Move them to the m_Free list.
                if (!AgePendingBuffers())
                {
                    // Before we could age at set of buffers, we have handed out half of them.
                    // This implies we should be proactive about allocating more (since we will trim them if we over-allocate).
                    if (m_NotGen2.Count == m_restockSize / 2)
                    {
                        PinnableBufferCacheEventSource.Log.DebugMessage("Proactively adding more buffers to aging pool");
                        CreateNewBuffers();
                    }
                }
            }
        }