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/*
 * Written by Doug Lea with assistance from members of JCP JSR-166
 * Expert Group and released to the public domain, as explained at
 * http://creativecommons.org/publicdomain/zero/1.0/
 */

/*
 * Source:
 * http://gee.cs.oswego.edu/cgi-bin/viewcvs.cgi/jsr166/src/jsr166e/Striped64.java?revision=1.9
 */

package com.google.common.cache;

import com.google.common.annotations.GwtIncompatible;
import java.util.Random;
import org.checkerframework.checker.nullness.compatqual.NullableDecl;

/**
 * A package-local class holding common representation and mechanics for classes supporting dynamic
 * striping on 64bit values. The class extends Number so that concrete subclasses must publicly do
 * so.
 */
@GwtIncompatible
abstract class Striped64 extends Number {
  /*
   * This class maintains a lazily-initialized table of atomically
   * updated variables, plus an extra "base" field. The table size
   * is a power of two. Indexing uses masked per-thread hash codes.
   * Nearly all declarations in this class are package-private,
   * accessed directly by subclasses.
   *
   * Table entries are of class Cell; a variant of AtomicLong padded
   * to reduce cache contention on most processors. Padding is
   * overkill for most Atomics because they are usually irregularly
   * scattered in memory and thus don't interfere much with each
   * other. But Atomic objects residing in arrays will tend to be
   * placed adjacent to each other, and so will most often share
   * cache lines (with a huge negative performance impact) without
   * this precaution.
   *
   * In part because Cells are relatively large, we avoid creating
   * them until they are needed.  When there is no contention, all
   * updates are made to the base field.  Upon first contention (a
   * failed CAS on base update), the table is initialized to size 2.
   * The table size is doubled upon further contention until
   * reaching the nearest power of two greater than or equal to the
   * number of CPUS. Table slots remain empty (null) until they are
   * needed.
   *
   * A single spinlock ("busy") is used for initializing and
   * resizing the table, as well as populating slots with new Cells.
   * There is no need for a blocking lock; when the lock is not
   * available, threads try other slots (or the base).  During these
   * retries, there is increased contention and reduced locality,
   * which is still better than alternatives.
   *
   * Per-thread hash codes are initialized to random values.
   * Contention and/or table collisions are indicated by failed
   * CASes when performing an update operation (see method
   * retryUpdate). Upon a collision, if the table size is less than
   * the capacity, it is doubled in size unless some other thread
   * holds the lock. If a hashed slot is empty, and lock is
   * available, a new Cell is created. Otherwise, if the slot
   * exists, a CAS is tried.  Retries proceed by "double hashing",
   * using a secondary hash (Marsaglia XorShift) to try to find a
   * free slot.
   *
   * The table size is capped because, when there are more threads
   * than CPUs, supposing that each thread were bound to a CPU,
   * there would exist a perfect hash function mapping threads to
   * slots that eliminates collisions. When we reach capacity, we
   * search for this mapping by randomly varying the hash codes of
   * colliding threads.  Because search is random, and collisions
   * only become known via CAS failures, convergence can be slow,
   * and because threads are typically not bound to CPUS forever,
   * may not occur at all. However, despite these limitations,
   * observed contention rates are typically low in these cases.
   *
   * It is possible for a Cell to become unused when threads that
   * once hashed to it terminate, as well as in the case where
   * doubling the table causes no thread to hash to it under
   * expanded mask.  We do not try to detect or remove such cells,
   * under the assumption that for long-running instances, observed
   * contention levels will recur, so the cells will eventually be
   * needed again; and for short-lived ones, it does not matter.
   */

  /**
   * Padded variant of AtomicLong supporting only raw accesses plus CAS. The value field is placed
   * between pads, hoping that the JVM doesn't reorder them.
   *
   * 

JVM intrinsics note: It would be possible to use a release-only form of CAS here, if it were * provided. */ static final class Cell { volatile long p0, p1, p2, p3, p4, p5, p6; volatile long value; volatile long q0, q1, q2, q3, q4, q5, q6; Cell(long x) { value = x; } final boolean cas(long cmp, long val) { return UNSAFE.compareAndSwapLong(this, valueOffset, cmp, val); } // Unsafe mechanics private static final sun.misc.Unsafe UNSAFE; private static final long valueOffset; static { try { UNSAFE = getUnsafe(); Class ak = Cell.class; valueOffset = UNSAFE.objectFieldOffset(ak.getDeclaredField("value")); } catch (Exception e) { throw new Error(e); } } } /** * ThreadLocal holding a single-slot int array holding hash code. Unlike the JDK8 version of this * class, we use a suboptimal int[] representation to avoid introducing a new type that can impede * class-unloading when ThreadLocals are not removed. */ static final ThreadLocal threadHashCode = new ThreadLocal<>(); /** Generator of new random hash codes */ static final Random rng = new Random(); /** Number of CPUS, to place bound on table size */ static final int NCPU = Runtime.getRuntime().availableProcessors(); /** Table of cells. When non-null, size is a power of 2. */ @NullableDecl transient volatile Cell[] cells; /** * Base value, used mainly when there is no contention, but also as a fallback during table * initialization races. Updated via CAS. */ transient volatile long base; /** Spinlock (locked via CAS) used when resizing and/or creating Cells. */ transient volatile int busy; /** Package-private default constructor */ Striped64() {} /** CASes the base field. */ final boolean casBase(long cmp, long val) { return UNSAFE.compareAndSwapLong(this, baseOffset, cmp, val); } /** CASes the busy field from 0 to 1 to acquire lock. */ final boolean casBusy() { return UNSAFE.compareAndSwapInt(this, busyOffset, 0, 1); } /** * Computes the function of current and new value. Subclasses should open-code this update * function for most uses, but the virtualized form is needed within retryUpdate. * * @param currentValue the current value (of either base or a cell) * @param newValue the argument from a user update call * @return result of the update function */ abstract long fn(long currentValue, long newValue); /** * Handles cases of updates involving initialization, resizing, creating new Cells, and/or * contention. See above for explanation. This method suffers the usual non-modularity problems of * optimistic retry code, relying on rechecked sets of reads. * * @param x the value * @param hc the hash code holder * @param wasUncontended false if CAS failed before call */ final void retryUpdate(long x, int[] hc, boolean wasUncontended) { int h; if (hc == null) { threadHashCode.set(hc = new int[1]); // Initialize randomly int r = rng.nextInt(); // Avoid zero to allow xorShift rehash h = hc[0] = (r == 0) ? 1 : r; } else h = hc[0]; boolean collide = false; // True if last slot nonempty for (; ; ) { Cell[] as; Cell a; int n; long v; if ((as = cells) != null && (n = as.length) > 0) { if ((a = as[(n - 1) & h]) == null) { if (busy == 0) { // Try to attach new Cell Cell r = new Cell(x); // Optimistically create if (busy == 0 && casBusy()) { boolean created = false; try { // Recheck under lock Cell[] rs; int m, j; if ((rs = cells) != null && (m = rs.length) > 0 && rs[j = (m - 1) & h] == null) { rs[j] = r; created = true; } } finally { busy = 0; } if (created) break; continue; // Slot is now non-empty } } collide = false; } else if (!wasUncontended) // CAS already known to fail wasUncontended = true; // Continue after rehash else if (a.cas(v = a.value, fn(v, x))) break; else if (n >= NCPU || cells != as) collide = false; // At max size or stale else if (!collide) collide = true; else if (busy == 0 && casBusy()) { try { if (cells == as) { // Expand table unless stale Cell[] rs = new Cell[n << 1]; for (int i = 0; i < n; ++i) rs[i] = as[i]; cells = rs; } } finally { busy = 0; } collide = false; continue; // Retry with expanded table } h ^= h << 13; // Rehash h ^= h >>> 17; h ^= h << 5; hc[0] = h; // Record index for next time } else if (busy == 0 && cells == as && casBusy()) { boolean init = false; try { // Initialize table if (cells == as) { Cell[] rs = new Cell[2]; rs[h & 1] = new Cell(x); cells = rs; init = true; } } finally { busy = 0; } if (init) break; } else if (casBase(v = base, fn(v, x))) break; // Fall back on using base } } /** Sets base and all cells to the given value. */ final void internalReset(long initialValue) { Cell[] as = cells; base = initialValue; if (as != null) { int n = as.length; for (int i = 0; i < n; ++i) { Cell a = as[i]; if (a != null) a.value = initialValue; } } } // Unsafe mechanics private static final sun.misc.Unsafe UNSAFE; private static final long baseOffset; private static final long busyOffset; static { try { UNSAFE = getUnsafe(); Class sk = Striped64.class; baseOffset = UNSAFE.objectFieldOffset(sk.getDeclaredField("base")); busyOffset = UNSAFE.objectFieldOffset(sk.getDeclaredField("busy")); } catch (Exception e) { throw new Error(e); } } /** * Returns a sun.misc.Unsafe. Suitable for use in a 3rd party package. Replace with a simple call * to Unsafe.getUnsafe when integrating into a jdk. * * @return a sun.misc.Unsafe */ private static sun.misc.Unsafe getUnsafe() { try { return sun.misc.Unsafe.getUnsafe(); } catch (SecurityException tryReflectionInstead) { } try { return java.security.AccessController.doPrivileged( new java.security.PrivilegedExceptionAction() { @Override public sun.misc.Unsafe run() throws Exception { Class k = sun.misc.Unsafe.class; for (java.lang.reflect.Field f : k.getDeclaredFields()) { f.setAccessible(true); Object x = f.get(null); if (k.isInstance(x)) return k.cast(x); } throw new NoSuchFieldError("the Unsafe"); } }); } catch (java.security.PrivilegedActionException e) { throw new RuntimeException("Could not initialize intrinsics", e.getCause()); } } }





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