internal static bool IsMyLiveGcCard(UIntPtr c) { VTable.Assert(IsValidCardNo(c), "IsMyLiveGcCard invalid"); UIntPtr page = PageTable.Page(CardAddr(c)); return(PageTable.IsMyPage(page) && PageTable.IsLiveGcPage(PageTable.Type(page))); }
private static void ReferenceCheck(UIntPtr *addr, Object value) { PageType addrType = PageTable.Type(PageTable.Page((UIntPtr)addr)); if (GenerationalGCData.MAX_GENERATION == PageType.Owner1) { if (addrType != PageType.Owner1) { return; } else { ReferenceCheck(addrType, addr, value); } } else { if (PageTable.IsLiveGcPage(addrType)) { ReferenceCheck(addrType, addr, value); } } }
internal void CleanPinnedPages() { if (pinnedPageList == null || pinnedPageList.Count == 0) { return; } int pageIndex = 0; int limit = pinnedPageList.Count; UIntPtr lastPostPinnedAddr = UIntPtr.Zero; while (pageIndex < limit) { UIntPtr startPage = (UIntPtr)pinnedPageList[pageIndex]; UIntPtr endPage = startPage + 1; pageIndex++; while (pageIndex < limit && (UIntPtr)pinnedPageList[pageIndex] == endPage) { pageIndex++; endPage++; } // Zero out the area between the start of the page and // the first object on the page UIntPtr firstObjectAddr = FirstPinnedObjectAddr(startPage); UIntPtr firstAddr = firstObjectAddr - PreHeader.Size; UIntPtr trashAddr = PageTable.PageAddr(startPage); if (firstAddr < trashAddr) { // The first object "spills" into the previous page, // presumably by no more than HEADER_BYTES bytes VTable.Assert( PageTable.Page(firstAddr) == startPage - 1, "Semispace:RegisterPinnedReference:3"); // Prepare to zero the preceding page unless it also // had pinned data on it trashAddr = PageTable.PageAddr(startPage - 1); InteriorPtrTable.ClearFirst(startPage - 1); if (trashAddr >= lastPostPinnedAddr) { // Need to mark the spilled-onto page live to // keep the spilled data around PageType fromSpaceType = PageTable.Type(startPage - 1); VTable.Assert( PageTable.IsZombiePage(fromSpaceType), "Semispace:RegisterPinnedReference:4"); PageType toSpaceType = PageTable.ZombieToLive(fromSpaceType); PageTable.SetType(startPage - 1, toSpaceType); } } // If lastPostPinnedAddr is on the page that trashAddr // starts, pinned data from the last run of pinned pages // and pinned data from this run of pinned data are on the // same page, so just write alignment tokens from // lastPostPinnedAddr to the first pinned object. // Otherwise, write an unused marker at lastPostPinnedAddr // since the rest of its page must be copied or dead. if (trashAddr < lastPostPinnedAddr) { trashAddr = lastPostPinnedAddr; } else { CleanPageTail(lastPostPinnedAddr); } if (GC.remsetType == RemSetType.Cards && trashAddr < firstAddr) { UIntPtr firstCard = CardTable.CardNo(trashAddr); UIntPtr lastCard = CardTable.CardNo(firstAddr - 1); if (!OffsetTable.NoObjectPtrToTheCard(firstCard)) { UIntPtr offset = OffsetTable.GetOffset(firstCard); UIntPtr objPtr = CardTable.CardAddr(firstCard) + offset; UIntPtr size = OffsetTable.ObjectSize(objPtr); VTable.Assert ((objPtr + size - PreHeader.Size <= trashAddr) || (objPtr >= trashAddr), "Object should be totally " + "above or below trashAddr"); if (objPtr >= trashAddr) { // The offset in this card needs to be updated OffsetTable.ClearCards(firstCard, firstCard); } } OffsetTable.ClearCards(firstCard + 1, lastCard - 1); if (lastCard != CardTable.CardNo(firstObjectAddr)) { OffsetTable.ClearCards(lastCard, lastCard); } else { VTable.Assert(OffsetTable.GetOffset(lastCard) >= (firstObjectAddr - CardTable.CardAddr(lastCard)), "wrong offset"); } } { // trashAddr should go back at most one page. UIntPtr trashPage = PageTable.Page(trashAddr); UIntPtr firstObjectAddrPage = PageTable.Page(firstObjectAddr); VTable.Assert((trashPage == firstObjectAddrPage - 1) || (trashPage == firstObjectAddrPage)); } // If the InteriorPtrTable already had a value, then this is // redundant, but if the call to First above has to compute // the value, then (since it won't store it in the table) we // should store it. Why? At this point the previous page // would be "connected" to this one. After this collection // the previous page will be unused or re-used and unrelated // to this page and subsequent calls to First would then // rely on it making the leap between unrelated pages. InteriorPtrTable.SetFirst(firstObjectAddr); while (trashAddr < firstAddr) { Allocator.WriteAlignment(trashAddr); trashAddr += UIntPtr.Size; } // Zero out the area between the last whole object on // the last page and the end of the last page UIntPtr pastAddr = PostPinnedObjectAddr(endPage); UIntPtr newEndPage = PageTable.Page(PageTable.PagePad(pastAddr)); while (endPage < newEndPage) { // The last object spills into the next page(s), so // mark those page(s) live PageType fromPageType = PageTable.Type(endPage); if (PageTable.IsZombiePage(fromPageType)) { PageType toSpaceType = PageTable.ZombieToLive(fromPageType); PageTable.SetType(endPage, toSpaceType); } else { // final page might be live already because // something else on it was pinned. // pageIndex has already been incremented, // so it points to the start of the next // set of contiguous pages VTable.Assert( PageTable.IsLiveGcPage(fromPageType) && pageIndex < limit && endPage == (UIntPtr)pinnedPageList[pageIndex], "Semispace:RegisterPinnedReference:5"); } ++endPage; } lastPostPinnedAddr = pastAddr; } CleanPageTail(lastPostPinnedAddr); pinnedPageList = null; comparer = null; }