client: new cache algorithm

neo/client/cache.py

@@ -15,26 +15,46 @@
 # along with this program.  If not, see <http://www.gnu.org/licenses/>.
 
 from __future__ import division
-import math
-from bisect import insort
+from BTrees.LOBTree import LOBTree
+from gc import get_referents
+from struct import Struct
+from sys import getsizeof
+
+s = Struct('d')
+pack_double = s.pack
+unpack_double = s.unpack
+s = Struct('q')
+pack_long = s.pack
+unpack_long = s.unpack
+del s
+
+def internalSizeOfBTree(x):
+  module = type(x).__module__
+  seen = set()
+  left = [x]
+  size = 0
+  while left:
+    x = left.pop()
+    seen.add(x)
+    size += getsizeof(x)
+    left.extend(x for x in get_referents(x)
+      if type(x).__module__ == module and x not in seen)
+  return size
 
 class CacheItem(object):
 
-    __slots__ = ('oid', 'tid', 'next_tid', 'data',
-                 'counter', 'level', 'expire',
-                 'prev', 'next')
+    __slots__ = 'oid', 'tid', 'next_tid', 'data', 'counter', 'expire'
 
     def __repr__(self):
         s = ''
         for attr in self.__slots__:
             try:
                 value = getattr(self, attr)
-                if value:
-                    if attr in ('prev', 'next'):
-                        s += ' %s=<...>' % attr
-                        continue
-                    elif attr == 'data':
-                        value = '...'
+                if attr == 'data':
+                    s += ' len(%s)=%s' % (attr, len(value))
+                    continue
+                if attr == 'expire':
+                    value = unpack_double(pack_long(value))[0]
                 s += ' %s=%r' % (attr, value)
             except AttributeError:
                 pass
@@ -44,261 +64,186 @@ class CacheItem(object):
         return self.tid < other.tid
 
 class ClientCache(object):
-    """In-memory pickle cache based on Multi-Queue cache algorithm
+    """In-memory pickle cache based on LFRU cache algorithm
 
-      Multi-Queue algorithm for Second Level Buffer Caches:
-      https://www.usenix.org/event/usenix01/full_papers/zhou/zhou_html/index.html
+      This Least Frequent Recently Used implementation is adapted to handle
+      records of different sizes. This is possible thanks to a B+Tree: the use
+      of such a complex structure for a cache is quite unusual for a cache
+      but we use a C implementation that's relatively fast compared to the
+      cost of a cache miss.
 
-      Quick description:
-      - There are multiple "regular" queues, plus a history queue
-      - The queue to store an object in depends on its access frequency
-      - The queue an object is in defines its lifespan (higher-index queue eq.
-        longer lifespan)
-        -> The more often an object is accessed, the higher lifespan it will
-           have
-      - Upon cache or history hit, object frequency is increased and object
-        might get moved to longer-lived queue
-      - Each access "ages" objects in cache, and an aging object is moved to
-        shorter-lived queue as it ages without being accessed, or in the
-        history queue if it's really too old.
-      - The history queue only contains items with counter > 0
+      This algorithm adapts well regardless its maximum allowed size,
+      without any tweak.
     """
 
-    __slots__ = ('max_size', '_life_time', '_max_history_size',
-                 '_queue_list', '_oid_dict', '_time', '_size', '_history_size',
+    __slots__ = ('max_size', '_oid_dict', '_size', '_added', '_items',
                  '_nhit', '_nmiss')
 
-    def __init__(self, life_time=10000, max_history_size=100000,
-                                        max_size=20*1024*1024):
-        self._life_time = life_time
-        self._max_history_size = max_history_size
+    def __init__(self, max_size=20*1024*1024):
         self.max_size = max_size
         self.clear()
 
     def clear(self):
         """Reset cache"""
-        self._queue_list = [None] # first is history
         self._oid_dict = {}
-        self._time = 0
-        self._size = 0
-        self._history_size = 0
-        self._nhit = self._nmiss = 0
+        self._size = self._nhit = self._nmiss = 0
+        # Make sure to never produce negative keys, else
+        # we could not manipulate them when encoded as integers.
+        self._added = self.max_size
+        self._items = LOBTree()
 
     def __repr__(self):
         nload = self._nhit + self._nmiss
-        return ("<%s #loads=%s #oids=%s size=%s time=%s queue_length=%r"
-                " (life_time=%s max_history_size=%s max_size=%s)>") % (
+        return ("<%s #loads=%s #oids=%s size=%s #items=%s"
+                " btree_overhead=%s (max_size=%s)>") % (
             self.__class__.__name__,
             nload and '%s (%.3g%% hit)' % (nload, 100 * self._nhit / nload),
-            len(self._oid_dict), self._size, self._time,
-            [self._history_size] + [
-                sum(1 for _ in self._iterQueue(level))
-                for level in xrange(1, len(self._queue_list))],
-            self._life_time, self._max_history_size, self.max_size)
-
-    def _iterQueue(self, level):
-        """for debugging purpose"""
-        if level < len(self._queue_list):
-            # Lockless iteration of the queue.
-            # XXX: In case of race condition, the result is wrong but at least,
-            #      it won't loop endlessly. If one want to collect accurate
-            #      statistics, a lock should be used.
-            expire = 0
-            item = self._queue_list[level]
-            while item and item.level == level and expire < item.expire:
-                yield item
-                expire = item.expire
-                item = item.next
-
-    def _remove_from_oid_dict(self, item):
-        item_list = self._oid_dict[item.oid]
-        item_list.remove(item)
-        if not item_list:
-            del self._oid_dict[item.oid]
-
-    def _add(self, item):
-        level = item.level
-        try:
-            head = self._queue_list[level]
-        except IndexError:
-            assert len(self._queue_list) == level
-            self._queue_list.append(item)
-            item.prev = item.next = item
-        else:
-            if head:
-                item.prev = tail = head.prev
-                tail.next = head.prev = item
-                item.next = head
-            else:
-                self._queue_list[level] = item
-                item.prev = item.next = item
-        if level:
-            item.expire = self._time + self._life_time
-        else:
-            self._empty(item)
-            self._history_size += 1
-            if self._max_history_size < self._history_size:
-                self._remove(head)
-                self._remove_from_oid_dict(head)
-
-    def _empty(self, item):
-        self._size -= len(item.data)
-        item.data = None
-
-    def _remove(self, item):
-        level = item.level
-        if level is not None:
-            if level:
-                item.level = level - 1
-            else:
-                self._history_size -= 1
-            next = item.next
-            if next is item:
-                self._queue_list[level] = next = None
-            else:
-                item.prev.next = next
-                next.prev = item.prev
-                if self._queue_list[level] is item:
-                    self._queue_list[level] = next
-            return next
-
-    def _fetched(self, item, _log=math.log):
-        self._remove(item)
-        item.counter = counter = item.counter + 1
-        # XXX It might be better to adjust the level according to the object
-        # size. See commented factor for example.
-        item.level = 1 + int(_log(counter, 2)
-                             # * (1.01 - len(item.data) / self.max_size)
-                            )
-        self._add(item)
-
-        self._time = time = self._time + 1
-        for head in self._queue_list[1:]:
-            if head and head.expire < time:
-                self._remove(head)
-                if head.level or head.counter:
-                    self._add(head)
-                else:
-                    self._empty(head)
-                    self._remove_from_oid_dict(head)
-                break
+            len(self._oid_dict), self._size, len(self._items),
+            internalSizeOfBTree(self._items),
+            self.max_size)
 
     def _load(self, oid, before_tid=None):
         item_list = self._oid_dict.get(oid)
         if item_list:
             if before_tid:
-                for item in reversed(item_list):
+                for item in item_list:
                     if item.tid < before_tid:
                         next_tid = item.next_tid
                         if next_tid and next_tid < before_tid:
                             break
                         return item
             else:
-                item = item_list[-1]
+                item = item_list[0]
                 if not item.next_tid:
                     return item
 
-    def load(self, oid, before_tid=None):
+    def load(self, oid, before_tid):
         """Return a revision of oid that was current before given tid"""
         item = self._load(oid, before_tid)
         if item:
-            data = item.data
-            if data is not None:
-                self._nhit += 1
-                self._fetched(item)
-                return data, item.tid, item.next_tid
+            del self._items[item.expire]
+            item.counter += 1
+            self._add(item)
+            self._nhit += 1
+            return item.data, item.tid, item.next_tid
         self._nmiss += 1
 
+    def _forget(self, item):
+        items = self._oid_dict[item.oid]
+        items.remove(item)
+        if not items:
+            del self._oid_dict[item.oid]
+        self._size -= len(item.data)
+        del self._items[item.expire]
+
+    def _add(self, item):
+        # The initial idea was to compute keys as follows:
+        #    (added - size) * item.counter
+        # However, after running for a long time, this tends to degenerate:
+        # - size become more and more negligible over time
+        # - objects that are most often accessed become impossible to remove,
+        #   making the cache too slow to adapt after a change of workload
+        # - 64 bits is not enough
+        # This was solved in several ways, by using the following formula:
+        #    min_key - size + (added - min_key) * item.counter
+        # and doubles.
+        # BTrees does not have an optimized class for doubles so we encode
+        # them as integers, which preserve the same order as long as they're
+        # positive (hence some extra tweak to avoid negative numbers in some
+        # rare cases) and it becomes easier to compute the next double
+        # (+1 instead of libm.nextafter). The downside is that conversion
+        # between double and long is a bit expensive in Python.
+        added = self._added
+        items = self._items
+        try:
+            x = items.minKey()
+        except ValueError:
+            x = added
+        else:
+            # Most of the time, the smallest key is smaller than `added`. In
+            # the very rare case it isn't, make sure to produce a positive key.
+            x = min(added, unpack_double(pack_long(x))[0])
+        size = len(item.data)
+        expire = unpack_long(pack_double(
+            x - size + (added - x) * item.counter
+            ))[0]
+        for x in items.iterkeys(expire):
+            if x != expire:
+                break
+            expire += 1
+        self._added = added + size
+        item.expire = expire
+        items[expire] = item
+
     def store(self, oid, data, tid, next_tid):
         """Store a new data record in the cache"""
         size = len(data)
         max_size = self.max_size
         if size < max_size:
-            item = self._load(oid, next_tid)
-            if item:
-                # We don't handle late invalidations for cached oids, because
-                # the caller is not supposed to explicitly asks for tids after
-                # app.last_tid (and the cache should be empty when app.last_tid
-                # is still None).
-                assert item.tid == tid, (item, tid)
-                if item.level: # already stored
-                    assert item.next_tid == next_tid and item.data == data
-                    return
-                assert not item.data
-                # Possible case of late invalidation.
-                item.next_tid = next_tid
+            i = 0
+            try:
+                items = self._oid_dict[oid]
+            except KeyError:
+                items = self._oid_dict[oid] = []
+                counter = 1
             else:
-                item = CacheItem()
-                item.oid = oid
-                item.tid = tid
-                item.next_tid = next_tid
-                item.counter = 0
-                item.level = None
-                try:
-                    item_list = self._oid_dict[oid]
-                except KeyError:
-                    self._oid_dict[oid] = [item]
+                for item in items:
+                    if item.tid < tid:
+                        assert None is not item.next_tid <= tid
+                        break
+                    if item.tid == tid:
+                        # We don't handle late invalidations for cached oids,
+                        # because the caller is not supposed to explicitly asks
+                        # for tids after app.last_tid (and the cache should be
+                        # empty when app.last_tid is still None).
+                        assert item.next_tid == next_tid and item.data == data
+                        return
+                    i += 1
+                if next_tid:
+                    counter = 1
                 else:
-                    if next_tid:
-                        insort(item_list, item)
-                    else:
-                        prev = item_list[-1]
-                        assert prev.next_tid <= tid, (prev, item)
-                        item.counter = prev.counter
-                        if prev.level:
-                            prev.counter = 0
-                            if prev.level > 1:
-                                self._fetched(prev)
-                            item_list.append(item)
-                        else:
-                            self._remove(prev)
-                            item_list[-1] = item
+                    counter = item.counter
+                    if counter != 1:
+                        del self._items[item.expire]
+                        item.counter = 1
+                        self._add(item)
+            item = CacheItem()
+            item.oid = oid
+            item.tid = tid
+            item.next_tid = next_tid
             item.data = data
-            self._fetched(item)
+            item.counter = counter
+            items.insert(i, item)
             self._size += size
-            if max_size < self._size:
-                for head in self._queue_list[1:]:
-                    while head:
-                        next = self._remove(head)
-                        if head.counter:
-                            head.level = 0
-                            self._add(head)
-                        else:
-                            self._empty(head)
-                            self._remove_from_oid_dict(head)
-                        if self._size <= max_size:
-                            return
-                        head = next
+            self._add(item)
+            while max_size < self._size:
+                items = self._items
+                self._forget(items[items.minKey()])
 
     def invalidate(self, oid, tid):
         """Mark data record as being valid only up to given tid"""
-        try:
-            item = self._oid_dict[oid][-1]
-        except KeyError:
-            pass
-        else:
+        items = self._oid_dict.get(oid)
+        if items:
+            item = items[0]
             if item.next_tid is None:
                 item.next_tid = tid
             else:
                 assert item.next_tid <= tid, (item, oid, tid)
 
     def clear_current(self):
-        for oid, item_list in self._oid_dict.items():
-            item = item_list[-1]
+        for oid, items in self._oid_dict.items():
+            item = items[0]
             if item.next_tid is None:
-                if item.level:
-                    self._empty(item)
-                self._remove(item)
-                del item_list[-1]
-                # We don't preserve statistics of removed items. This could be
-                # done easily when previous versions are cached, by copying
-                # counters, but it would not be fair for other oids, so it's
-                # probably not worth it.
-                if not item_list:
-                    del self._oid_dict[oid]
+                self._forget(item)
 
 
 def test(self):
+    orig_add = ClientCache._add
+    def _add(cache, item):
+        orig_add(cache, item)
+        self.assertLessEqual(0, cache._items.minKey())
+    ClientCache._add = _add
+
     cache = ClientCache()
     repr(cache)
     self.assertEqual(cache.load(1, 10), None)
@@ -324,24 +269,26 @@ def test(self):
     self.assertEqual(cache.load(1, 20), ('15', 15, 20))
     cache.store(1, '10', 10, 15)
     cache.store(1, '20', 20, 21)
-    self.assertEqual([5, 10, 15, 20], [x.tid for x in cache._oid_dict[1]])
+    self.assertEqual([20, 15, 10, 5], [x.tid for x in cache._oid_dict[1]])
     self.assertRaises(AssertionError, cache.store, 1, '20', 20, None)
     repr(cache)
-    map(repr, cache._queue_list)
-    # Test late invalidations.
-    cache.clear()
-    cache.store(1, '10*', 10, None)
-    cache.max_size = cache._size
-    cache.store(2, '10', 10, 15)
-    self.assertEqual(cache._queue_list[0].oid, 1)
-    cache.store(2, '15', 15, None)
-    self.assertEqual(cache._queue_list[2].oid, 2)
-    data = '10', 10, 15
-    cache.store(1, *data)
-    self.assertEqual(cache.load(1, 15), data)
-    self.assertEqual(1, cache._history_size)
+    cache = ClientCache(10)
+    data1 = "x", 1, None
+    cache.store(1, "x", 1, None)
+    repr(*cache._oid_dict[1])
+    data = "xxxxx", 1, None
+    cache.store(2, *data)
+    cache.store(3, *data)
+    self.assertEqual(cache.load(1, None), data1)
+    self.assertEqual(cache.load(2, None), None) # bigger records removed faster
+    self.assertEqual(cache.load(3, None), data)
+    self.assertEqual(cache._size, 6)
     cache.clear_current()
-    self.assertEqual(0, cache._history_size)
+    for oid in 0, 1:
+        cache.store(oid, 'x', 1, None)
+        cache.load(oid, None)
+        cache.load(oid, None)
+    cache.load(0, None)
 
 if __name__ == '__main__':
     import unittest

neo/tests/threaded/test.py

@@ -931,7 +931,7 @@ class Test(NEOThreadedTest):
                     ll()
             x2._p_deactivate()
             # Remove last version of x from cache
-            cache._remove(cache._oid_dict[x2._p_oid].pop())
+            cache._forget(cache._oid_dict[x2._p_oid][0])
             with ll, Patch(cluster.client, _loadFromStorage=break_after):
                 t = self.newThread(x2._p_activate)
                 ll()