hotspot/src/share/vm/gc_implementation/concurrentMarkSweep/freeChunk.hpp
author ysr
Mon, 16 Aug 2010 15:58:42 -0700
changeset 6258 68f252c6e825
parent 5702 201c5cde25bb
child 7397 5b173b4ca846
permissions -rw-r--r--
6948538: CMS: BOT walkers can fall into object allocation and initialization cracks Summary: GC workers now recognize an intermediate transient state of blocks which are allocated but have not yet completed initialization. blk_start() calls do not attempt to determine the size of a block in the transient state, rather waiting for the block to become initialized so that it is safe to query its size. Audited and ensured the order of initialization of object fields (klass, free bit and size) to respect block state transition protocol. Also included some new assertion checking code enabled in debug mode. Reviewed-by: chrisphi, johnc, poonam

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//
// Free block maintenance for Concurrent Mark Sweep Generation
//
// The main data structure for free blocks are
// . an indexed array of small free blocks, and
// . a dictionary of large free blocks
//

// No virtuals in FreeChunk (don't want any vtables).

// A FreeChunk is merely a chunk that can be in a doubly linked list
// and has a size field. NOTE: FreeChunks are distinguished from allocated
// objects in two ways (by the sweeper), depending on whether the VM is 32 or
// 64 bits.
// In 32 bits or 64 bits without CompressedOops, the second word (prev) has the
// LSB set to indicate a free chunk; allocated objects' klass() pointers
// don't have their LSB set. The corresponding bit in the CMSBitMap is
// set when the chunk is allocated. There are also blocks that "look free"
// but are not part of the free list and should not be coalesced into larger
// free blocks. These free blocks have their two LSB's set.

class FreeChunk VALUE_OBJ_CLASS_SPEC {
  friend class VMStructs;
  // For 64 bit compressed oops, the markOop encodes both the size and the
  // indication that this is a FreeChunk and not an object.
  volatile size_t   _size;
  FreeChunk* _prev;
  FreeChunk* _next;

  markOop mark()     const volatile { return (markOop)_size; }
  void set_mark(markOop m)          { _size = (size_t)m; }

 public:
  NOT_PRODUCT(static const size_t header_size();)

  // Returns "true" if the address indicates that the block represents
  // a free chunk.
  static bool indicatesFreeChunk(const HeapWord* addr) {
    // Force volatile read from addr because value might change between
    // calls.  We really want the read of _mark and _prev from this pointer
    // to be volatile but making the fields volatile causes all sorts of
    // compilation errors.
    return ((volatile FreeChunk*)addr)->isFree();
  }

  bool isFree() const volatile {
    LP64_ONLY(if (UseCompressedOops) return mark()->is_cms_free_chunk(); else)
    return (((intptr_t)_prev) & 0x1) == 0x1;
  }
  bool cantCoalesce() const {
    assert(isFree(), "can't get coalesce bit on not free");
    return (((intptr_t)_prev) & 0x2) == 0x2;
  }
  void dontCoalesce() {
    // the block should be free
    assert(isFree(), "Should look like a free block");
    _prev = (FreeChunk*)(((intptr_t)_prev) | 0x2);
  }
  FreeChunk* prev() const {
    return (FreeChunk*)(((intptr_t)_prev) & ~(0x3));
  }

  debug_only(void* prev_addr() const { return (void*)&_prev; })
  debug_only(void* next_addr() const { return (void*)&_next; })
  debug_only(void* size_addr() const { return (void*)&_size; })

  size_t size() const volatile {
    LP64_ONLY(if (UseCompressedOops) return mark()->get_size(); else )
    return _size;
  }
  void setSize(size_t sz) {
    LP64_ONLY(if (UseCompressedOops) set_mark(markOopDesc::set_size_and_free(sz)); else )
    _size = sz;
  }

  FreeChunk* next()   const { return _next; }

  void linkAfter(FreeChunk* ptr) {
    linkNext(ptr);
    if (ptr != NULL) ptr->linkPrev(this);
  }
  void linkAfterNonNull(FreeChunk* ptr) {
    assert(ptr != NULL, "precondition violation");
    linkNext(ptr);
    ptr->linkPrev(this);
  }
  void linkNext(FreeChunk* ptr) { _next = ptr; }
  void linkPrev(FreeChunk* ptr) {
    LP64_ONLY(if (UseCompressedOops) _prev = ptr; else)
    _prev = (FreeChunk*)((intptr_t)ptr | 0x1);
  }
  void clearPrev()              { _prev = NULL; }
  void clearNext()              { _next = NULL; }
  void markNotFree() {
    // Set _prev (klass) to null before (if) clearing the mark word below
    _prev = NULL;
#ifdef _LP64
    if (UseCompressedOops) {
      OrderAccess::storestore();
      set_mark(markOopDesc::prototype());
    }
#endif
    assert(!isFree(), "Error");
  }

  // Return the address past the end of this chunk
  HeapWord* end() const { return ((HeapWord*) this) + size(); }

  // debugging
  void verify()             const PRODUCT_RETURN;
  void verifyList()         const PRODUCT_RETURN;
  void mangleAllocated(size_t size) PRODUCT_RETURN;
  void mangleFreed(size_t size)     PRODUCT_RETURN;

  void print_on(outputStream* st);
};

extern size_t MinChunkSize;