提交 c1626c68 编写于 作者: Y ysr

6948539: CMS+UseCompressedOops: placement of cms_free bit interferes with promoted object link

Summary: When using compressed oops, use compressed promoted pointers in b63:b31 of the mark word, so as not to interfere with the CMS "freeness bit" at b7. Updated mark-word layout documentation.
Reviewed-by: minqi, poonam, jmasa, coleenp
上级 d6d212dd
/*
* Copyright 2001-2009 Sun Microsystems, Inc. All Rights Reserved.
* Copyright 2010 Sun Microsystems, Inc. All Rights Reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
......
/*
* Copyright 2001-2009 Sun Microsystems, Inc. All Rights Reserved.
* Copyright 2010 Sun Microsystems, Inc. All Rights Reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
......@@ -32,30 +32,75 @@ class PromotedObject VALUE_OBJ_CLASS_SPEC {
displaced_mark = nth_bit(2), // i.e. 0x4
next_mask = ~(right_n_bits(3)) // i.e. ~(0x7)
};
// Below, we want _narrow_next in the "higher" 32 bit slot,
// whose position will depend on endian-ness of the platform.
// This is so that there is no interference with the
// cms_free_bit occupying bit position 7 (lsb == 0)
// when we are using compressed oops; see FreeChunk::isFree().
// We cannot move the cms_free_bit down because currently
// biased locking code assumes that age bits are contiguous
// with the lock bits. Even if that assumption were relaxed,
// the least position we could move this bit to would be
// to bit position 3, which would require 16 byte alignment.
typedef struct {
#ifdef VM_LITTLE_ENDIAN
LP64_ONLY(narrowOop _pad;)
narrowOop _narrow_next;
#else
narrowOop _narrow_next;
LP64_ONLY(narrowOop _pad;)
#endif
} Data;
union {
intptr_t _next;
Data _data;
};
public:
inline PromotedObject* next() const {
return (PromotedObject*)(_next & next_mask);
assert(!((FreeChunk*)this)->isFree(), "Error");
PromotedObject* res;
if (UseCompressedOops) {
// The next pointer is a compressed oop stored in the top 32 bits
res = (PromotedObject*)oopDesc::decode_heap_oop(_data._narrow_next);
} else {
res = (PromotedObject*)(_next & next_mask);
}
assert(oop(res)->is_oop_or_null(true /* ignore mark word */), "Not an oop?");
return res;
}
inline void setNext(PromotedObject* x) {
assert(((intptr_t)x & ~next_mask) == 0,
"Conflict in bit usage, "
" or insufficient alignment of objects");
assert(((intptr_t)x & ~next_mask) == 0, "Conflict in bit usage, "
"or insufficient alignment of objects");
if (UseCompressedOops) {
assert(_data._narrow_next == 0, "Overwrite?");
_data._narrow_next = oopDesc::encode_heap_oop(oop(x));
} else {
_next |= (intptr_t)x;
}
assert(!((FreeChunk*)this)->isFree(), "Error");
}
inline void setPromotedMark() {
_next |= promoted_mask;
assert(!((FreeChunk*)this)->isFree(), "Error");
}
inline bool hasPromotedMark() const {
assert(!((FreeChunk*)this)->isFree(), "Error");
return (_next & promoted_mask) == promoted_mask;
}
inline void setDisplacedMark() {
_next |= displaced_mark;
assert(!((FreeChunk*)this)->isFree(), "Error");
}
inline bool hasDisplacedMark() const {
assert(!((FreeChunk*)this)->isFree(), "Error");
return (_next & displaced_mark) != 0;
}
inline void clearNext() { _next = 0; }
inline void clearNext() {
_next = 0;
assert(!((FreeChunk*)this)->isFree(), "Error");
}
debug_only(void *next_addr() { return (void *) &_next; })
};
......
......@@ -27,12 +27,26 @@
// Note that the mark is not a real oop but just a word.
// It is placed in the oop hierarchy for historical reasons.
//
// Bit-format of an object header (most significant first):
// Bit-format of an object header (most significant first, big endian layout below):
//
// 32 bits: unused:0 hash:25 age:4 biased_lock:1 lock:2
// 64 bits: unused:24 hash:31 cms:2 age:4 biased_lock:1 lock:2
// unused:20 size:35 cms:2 age:4 biased_lock:1 lock:2 (if cms
// free chunk)
// 32 bits:
// --------
// hash:25 ------------>| age:4 biased_lock:1 lock:2 (normal object)
// JavaThread*:23 epoch:2 age:4 biased_lock:1 lock:2 (biased object)
// size:32 ------------------------------------------>| (CMS free block)
// PromotedObject*:29 ---------->| promo_bits:3 ----->| (CMS promoted object)
//
// 64 bits:
// --------
// unused:25 hash:31 -->| unused:1 age:4 biased_lock:1 lock:2 (normal object)
// JavaThread*:54 epoch:2 unused:1 age:4 biased_lock:1 lock:2 (biased object)
// PromotedObject*:61 --------------------->| promo_bits:3 ----->| (CMS promoted object)
// size:64 ----------------------------------------------------->| (CMS free block)
//
// unused:25 hash:31 -->| cms_free:1 age:4 biased_lock:1 lock:2 (COOPs && normal object)
// JavaThread*:54 epoch:2 cms_free:1 age:4 biased_lock:1 lock:2 (COOPs && biased object)
// narrowOop:32 unused:24 cms_free:1 unused:4 promo_bits:3 ----->| (COOPs && CMS promoted object)
// unused:21 size:35 -->| cms_free:1 unused:7 ------------------>| (COOPs && CMS free block)
//
// - hash contains the identity hash value: largest value is
// 31 bits, see os::random(). Also, 64-bit vm's require
......@@ -61,8 +75,9 @@
// significant fraction of the eden semispaces and were not
// promoted promptly, causing an increase in the amount of copying
// performed. The runtime system aligns all JavaThread* pointers to
// a very large value (currently 128 bytes) to make room for the
// age bits when biased locking is enabled.
// a very large value (currently 128 bytes (32bVM) or 256 bytes (64bVM))
// to make room for the age bits & the epoch bits (used in support of
// biased locking), and for the CMS "freeness" bit in the 64bVM (+COOPs).
//
// [JavaThread* | epoch | age | 1 | 01] lock is biased toward given thread
// [0 | epoch | age | 1 | 01] lock is anonymously biased
......
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