fixes #6086 Merge 6086 to main. We now read in basement nodes if a full...

fixes #6086 Merge 6086 to main. We now read in basement nodes if a full keyrange resides in it so that we can answer more accurately. git-svn-id: file:///svn/toku/tokudb@54342 c7de825b-a66e-492c-adef-691d508d4ae1

fixes #6086 Merge 6086 to main. We now read in basement nodes if a full...
fixes #6086 Merge 6086 to main. We now read in basement nodes if a full keyrange resides in it so that we can answer more accurately. git-svn-id: file:///svn/toku/tokudb@54342 c7de825b-a66e-492c-adef-691d508d4ae1
1164029f · Yoni Fogel · 76fe5767 · 1164029f · 1164029f · 1164029f
Commit 1164029f authored Mar 13, 2013 by Yoni Fogel
9 changed files
--- a/buildheader/make_tdb.cc
+++ b/buildheader/make_tdb.cc
@@ -420,7 +420,9 @@ static void print_db_struct (void) {
    STRUCT_SETUP(DB, set_pagesize,   "int (*%s) (DB *, uint32_t)");
    STRUCT_SETUP(DB, stat,           "int (*%s) (DB *, void *, uint32_t)");
    STRUCT_SETUP(DB, verify,         "int (*%s) (DB *, const char *, const char *, FILE *, uint32_t)");
-    const char *extra[]={"int (*key_range64)(DB*, DB_TXN *, DBT *, uint64_t *less, uint64_t *equal, uint64_t *greater, int *is_exact)",
+    const char *extra[]={
+                         "int (*key_range64)(DB*, DB_TXN *, DBT *, uint64_t *less, uint64_t *equal, uint64_t *greater, int *is_exact)",
+                         "int (*keys_range64)(DB*, DB_TXN *, DBT *keyleft, DBT *keyright, uint64_t *less, uint64_t *left, uint64_t *between, uint64_t *right, uint64_t *greater, bool *middle_3_exact)",
 			 "int (*stat64)(DB *, DB_TXN *, DB_BTREE_STAT64 *)",
 			 "int (*pre_acquire_table_lock)(DB*, DB_TXN*)",
 			 "int (*pre_acquire_fileops_lock)(DB*, DB_TXN*)",

--- a/ft/ft-internal.h
+++ b/ft/ft-internal.h
@@ -51,9 +51,24 @@ enum ftnode_fetch_type {
    ftnode_fetch_none=1, // no partitions needed.  
    ftnode_fetch_subset, // some subset of partitions needed
    ftnode_fetch_prefetch, // this is part of a prefetch call
-    ftnode_fetch_all // every partition is needed
+    ftnode_fetch_all, // every partition is needed
+    ftnode_fetch_keymatch, // one child is needed if it holds both keys
 };

+static bool is_valid_ftnode_fetch_type(enum ftnode_fetch_type type) UU();
+static bool is_valid_ftnode_fetch_type(enum ftnode_fetch_type type) {
+    switch (type) {
+        case ftnode_fetch_none:
+        case ftnode_fetch_subset:
+        case ftnode_fetch_prefetch:
+        case ftnode_fetch_all:
+        case ftnode_fetch_keymatch:
+            return true;
+        default:
+            return false;
+    }
+}
+
 //
 // An extra parameter passed to cachetable functions 
 // That is used in all types of fetch callbacks.
@@ -730,6 +745,46 @@ static inline void fill_bfe_for_full_read(struct ftnode_fetch_extra *bfe, FT h)
    bfe->decompress_time = 0;
 }

+//
+// Helper function to fill a ftnode_fetch_extra with data
+// that will tell the fetch callback that an explicit range of children is
+// necessary. Used in cases where the portion of the node that is required
+// is known in advance, e.g. for keysrange when the left and right key
+// are in the same basement node.
+//
+static inline void fill_bfe_for_keymatch(
+    struct ftnode_fetch_extra *bfe,
+    FT h,
+    DBT *left,
+    DBT *right,
+    bool disable_prefetching,
+    bool read_all_partitions
+    )
+{
+    paranoid_invariant(h->h->type == FT_CURRENT);
+    bfe->type = ftnode_fetch_keymatch;
+    bfe->h = h;
+    bfe->search = nullptr;
+    toku_init_dbt(&bfe->range_lock_left_key);
+    toku_init_dbt(&bfe->range_lock_right_key);
+    if (left) {
+        toku_copyref_dbt(&bfe->range_lock_left_key, *left);
+    }
+
+    if (right) {
+        toku_copyref_dbt(&bfe->range_lock_right_key, *right);
+    }
+    bfe->left_is_neg_infty = left == nullptr;
+    bfe->right_is_pos_infty = right == nullptr;
+    bfe->child_to_read = -1;
+    bfe->disable_prefetching = disable_prefetching;
+    bfe->read_all_partitions = read_all_partitions;
+    bfe->bytes_read = 0;
+    bfe->io_time = 0;
+    bfe->deserialize_time = 0;
+    bfe->decompress_time = 0;
+}
+
 //
 // Helper function to fill a ftnode_fetch_extra with data
 // that will tell the fetch callback that some subset of the node

--- a/ft/ft-ops.cc
+++ b/ft/ft-ops.cc
--- a/ft/ft-ops.h
+++ b/ft/ft-ops.h
@@ -205,6 +205,7 @@ enum ft_flags {
 };

 void toku_ft_keyrange(FT_HANDLE brt, DBT *key, uint64_t *less,  uint64_t *equal,  uint64_t *greater);
+void toku_ft_keysrange(FT_HANDLE brt, DBT* key_left, DBT* key_right, uint64_t *less_p, uint64_t* equal_left_p, uint64_t* middle_p, uint64_t* equal_right_p, uint64_t* greater_p, bool* middle_3_exact_p);

 struct ftstat64_s {
    uint64_t nkeys; /* estimate how many unique keys (even when flattened this may be an estimate)     */

--- a/ft/ft_node-serialize.cc
+++ b/ft/ft_node-serialize.cc
@@ -1372,6 +1372,20 @@ update_bfe_using_ftnode(FTNODE node, struct ftnode_fetch_extra *bfe)
            node,
            bfe->search
            );
+    } else if (bfe->type == ftnode_fetch_keymatch) {
+        // we do not take into account prefetching yet
+        // as of now, if we need a subset, the only thing
+        // we can possibly require is a single basement node
+        // we find out what basement node the query cares about
+        // and check if it is available
+        paranoid_invariant(bfe->h->compare_fun);
+        if (node->height == 0) {
+            int left_child = toku_bfe_leftmost_child_wanted(bfe, node);
+            int right_child = toku_bfe_rightmost_child_wanted(bfe, node);
+            if (left_child == right_child) {
+                bfe->child_to_read = left_child;
+            }
+        }
    }
 }

@@ -1688,7 +1702,7 @@ deserialize_ftnode_header_from_rbuf_if_small_enough (FTNODE *ftnode,
    // rbuf, so we might be able to store the compressed data for some
    // objects.
    // We can proceed to deserialize the individual subblocks.
-    paranoid_invariant(bfe->type == ftnode_fetch_none || bfe->type == ftnode_fetch_subset || bfe->type == ftnode_fetch_all || bfe->type == ftnode_fetch_prefetch);
+    paranoid_invariant(is_valid_ftnode_fetch_type(bfe->type));

    // setup the memory of the partitions
    // for partitions being decompressed, create either FIFO or basement node
@@ -2323,7 +2337,7 @@ deserialize_ftnode_from_rbuf(

    // now that the node info has been deserialized, we can proceed to deserialize
    // the individual sub blocks
-    paranoid_invariant(bfe->type == ftnode_fetch_none || bfe->type == ftnode_fetch_subset || bfe->type == ftnode_fetch_all || bfe->type == ftnode_fetch_prefetch);
+    paranoid_invariant(is_valid_ftnode_fetch_type(bfe->type));

    // setup the memory of the partitions
    // for partitions being decompressed, create either FIFO or basement node

--- a/ft/tests/keyrange.cc
+++ b/ft/tests/keyrange.cc
@@ -66,6 +66,49 @@ static void maybe_reopen (enum memory_state ms, uint64_t limit) {
    assert(0);
 }

+static void verify_keysrange(enum memory_state UU(ms), uint64_t limit,
+        uint64_t intkey1,
+        uint64_t intkey2,
+        uint64_t less,
+        uint64_t equal1,
+        uint64_t middle,
+        uint64_t equal2,
+        uint64_t greater,
+        bool middle3exact) {
+    uint64_t max_item = limit * 2 - 1;
+    uint64_t perfect_total = limit;
+    uint64_t perfect_less = intkey1 / 2;
+    uint64_t perfect_equal1 = intkey1 % 2 == 1;
+    uint64_t perfect_equal2 = intkey2 % 2 == 1 && intkey2 <= max_item;
+    uint64_t perfect_greater = intkey2 >= max_item ? 0 : (max_item + 1 - intkey2) / 2;
+    uint64_t perfect_middle = perfect_total - perfect_less - perfect_equal1 - perfect_equal2 - perfect_greater;
+
+    uint64_t total = less + equal1 + middle + equal2 + greater;
+    assert(total > 0);
+    assert(total < 2 * perfect_total);
+    assert(total > perfect_total / 2);
+
+    assert(equal1 == perfect_equal1 || (equal1 == 0 && !middle3exact));
+    assert(equal2 == perfect_equal2 || (equal2 == 0 && !middle3exact));
+
+    // As of 2013-02-25 this is accurate with fiddle ~= total/50.
+    // Set to 1/10th to prevent flakiness.
+    uint64_t fiddle = perfect_total / 10;
+    assert(less + fiddle > perfect_less);
+    assert(less < perfect_less + fiddle);
+
+    assert(middle + fiddle > perfect_middle);
+    assert(middle < perfect_middle + fiddle);
+
+    assert(greater + fiddle > perfect_greater);
+    assert(greater < perfect_greater + fiddle);
+
+    if (middle3exact) {
+        assert(middle == perfect_middle);
+    }
+}
+
+
 static void test_keyrange (enum memory_state ms, uint64_t limit) {
    open_ft_and_ct(true);

@@ -123,7 +166,9 @@ static void test_keyrange (enum memory_state ms, uint64_t limit) {
 #endif
 	    } else {
 		// after reopen, none of the basements are in memory
-		assert(equal == 0);
+		// However, "both" keys can be in the same basement (specifically the last basement node in the tree)
+                // Without trying to figure out how many are in the last basement node, we expect at least the first half not to be in the last basement node.
+                assert(i > limit / 2 || equal == 0);
 #if 0
 		if (i<10) {
 		    assert(less==0);
@@ -189,6 +234,80 @@ static void test_keyrange (enum memory_state ms, uint64_t limit) {
 #endif
    }

+    maybe_reopen(ms, limit);
+
+    {
+        uint64_t totalqueries = 0;
+        uint64_t num_middle3_exact = 0;
+        for (uint64_t i=0; i < 2*limit; i++) {
+	    char key[100];
+	    char keyplus4[100];
+	    char keyplus5[100];
+            uint64_t intkey = i;
+
+	    snprintf(key, 100, "%08" PRIu64 "", intkey);
+	    snprintf(keyplus4, 100, "%08" PRIu64 "", intkey+4);
+	    snprintf(keyplus5, 100, "%08" PRIu64 "", intkey+5);
+
+	    DBT k;
+	    DBT k2;
+	    DBT k3;
+            toku_fill_dbt(&k, key, 1+strlen(key));
+            toku_fill_dbt(&k2, keyplus4, 1+strlen(keyplus4));
+            toku_fill_dbt(&k3, keyplus5, 1+strlen(keyplus5));
+	    uint64_t less,equal1,middle,equal2,greater;
+            bool middle3exact;
+	    toku_ft_keysrange(t, &k, &k2, &less, &equal1, &middle, &equal2, &greater, &middle3exact);
+            if (ms == CLOSE_AND_REOPEN_LEAVE_ON_DISK) {
+                //TODO(yoni): when reading basement nodes is implemented, get rid of this hack
+                middle3exact = false;
+            }
+            totalqueries++;
+            num_middle3_exact += middle3exact;
+            if (verbose > 1) {
+                printf("Rkey2 %" PRIu64 "/%" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %s\n",
+                       intkey, 2*limit, less, equal1, middle, equal2, greater, middle3exact ? "true" : "false");
+            }
+            verify_keysrange(ms, limit, intkey, intkey+4,
+                    less, equal1, middle, equal2, greater, middle3exact);
+
+	    toku_ft_keysrange(t, &k, &k3, &less, &equal1, &middle, &equal2, &greater, &middle3exact);
+            if (ms == CLOSE_AND_REOPEN_LEAVE_ON_DISK) {
+                //TODO(yoni): when reading basement nodes is implemented, get rid of this hack
+                middle3exact = false;
+            }
+            totalqueries++;
+            num_middle3_exact += middle3exact;
+            if (verbose > 1) {
+                printf("Rkey3 %" PRIu64 "/%" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %" PRIu64
+                       " %s\n",
+                       intkey, 2*limit, less, equal1, middle, equal2, greater, middle3exact ? "true" : "false");
+            }
+            verify_keysrange(ms, limit, intkey, intkey+5,
+                    less, equal1, middle, equal2, greater, middle3exact);
+        }
+        assert(num_middle3_exact <= totalqueries);
+        if (ms == CLOSE_AND_REOPEN_LEAVE_ON_DISK) {
+            //TODO(yoni): when reading basement nodes is implemented, get rid of this hack
+            assert(num_middle3_exact == 0);
+        } else {
+            // About 85% of the time, the key for an int (and +4 or +5) is in the
+            // same basement node.  Check >= 70% so this isn't very flaky.
+            assert(num_middle3_exact > totalqueries * 7 / 10);
+        }
+    }
+
    close_ft_and_ct();
 }


--- a/src/tests/CMakeLists.txt
+++ b/src/tests/CMakeLists.txt
@@ -695,12 +695,8 @@ if(BUILD_TESTING OR BUILD_SRC_TESTS)
  declare_custom_tests(keyrange.tdb)
  add_ydb_test_aux(keyrange-get0.tdb keyrange.tdb --get 0)
  add_ydb_test_aux(keyrange-get1.tdb keyrange.tdb --get 1)
-  if (0)
  add_ydb_test_aux(keyrange-random-get0.tdb keyrange.tdb --get 0 --random_keys 1)
  add_ydb_test_aux(keyrange-random-get1.tdb keyrange.tdb --get 1 --random_keys 1)
-  else ()
-    message(WARNING "TODO(leif): re-enable keyrange tests, see #5666")
-  endif ()
  add_ydb_test_aux(keyrange-loader-get0.tdb keyrange.tdb --get 0 --loader 1)
  add_ydb_test_aux(keyrange-loader-get1.tdb keyrange.tdb --get 1 --loader 1)


--- a/src/tests/keyrange.cc
+++ b/src/tests/keyrange.cc
@@ -60,7 +60,7 @@ run_test(void) {

    size_t key_size = 9;
    size_t val_size = 9;
-    size_t est_row_size_with_overhead = 8 + key_size + 4 + val_size + 4; // xid + key + key_len + val + val)len
+    size_t est_row_size_with_overhead = 8 + key_size + 4 + val_size + 4 + 5; // xid + key + key_len + val + val_len + mvcc overhead
    size_t rows_per_basement = db_basement_size / est_row_size_with_overhead;

    int r;
@@ -72,7 +72,8 @@ run_test(void) {
    r = env->open(env, envdir, DB_INIT_LOCK|DB_INIT_LOG|DB_INIT_MPOOL|DB_INIT_TXN|DB_CREATE|DB_PRIVATE, S_IRWXU+S_IRWXG+S_IRWXO); CKERR(r);

    r = db_create(&db, env, 0); CKERR(r);
-    r = db->set_pagesize(db, db_page_size);
+    r = db->set_pagesize(db, db_page_size); CKERR(r);
+    r = db->set_readpagesize(db, db_basement_size); CKERR(r);
    r = env->txn_begin(env, 0, &txn, 0); CKERR(r);
    r = db->open(db, txn, "foo.db", 0, DB_BTREE, DB_CREATE, S_IRWXU+S_IRWXG+S_IRWXO); CKERR(r);
    r = txn->commit(txn, 0);    CKERR(r);
@@ -145,7 +146,11 @@ run_test(void) {

    if (0) goto skipit; // debug: just write the tree

+    bool last_basement;
+    last_basement = false;
    // verify key_range for keys that exist in the tree
+    uint64_t random_fudge;
+    random_fudge = random_keys ? rows_per_basement + nrows / 10 : 0;
    for (uint64_t i=0; i<nrows; i++) {
 	char key[100];
 	snprintf(key, 100, "%08llu", (unsigned long long)2*i+1);
@@ -160,15 +165,31 @@ run_test(void) {
        assert(0 < less + equal + greater);
        if (use_loader) {
            assert(less + equal + greater <= nrows);
-            assert(get_all ? equal == 1 : equal == 0);
+            if (get_all || last_basement) {
+                assert(equal == 1);
+            } else if (i < nrows - rows_per_basement * 2) {
+                assert(equal == 0);
+            } else if (i == nrows - 1) {
+                assert(equal == 1);
+            } else if (equal == 1) {
+                last_basement = true;
+            }
            assert(less <= max64(i, i + rows_per_basement/2));
            assert(greater <= nrows - less);
        } else {
            assert(less + equal + greater <= nrows + nrows / 8);
-            assert(get_all ? equal == 1 : equal == 0);
-            uint64_t est_i = max64(i, i + rows_per_basement/2);
-            assert(less <= est_i + est_i / 1);
-            assert(greater <= nrows - i + rows_per_basement/2);
+            if (get_all || last_basement) {
+                assert(equal == 1);
+            } else if (i < nrows - rows_per_basement * 2) {
+                assert(equal == 0);
+            } else if (i == nrows - 1) {
+                assert(equal == 1);
+            } else if (equal == 1) {
+                last_basement = true;
+            }
+            uint64_t est_i = i * 2 + rows_per_basement;
+            assert(less <= est_i + random_fudge);
+            assert(greater <= nrows - i + rows_per_basement + random_fudge);
 	}
    }

@@ -193,9 +214,9 @@ run_test(void) {
        } else {
            assert(less + equal + greater <= nrows + nrows / 8);
            assert(equal == 0);
-            uint64_t est_i = max64(i, i + rows_per_basement/2);
-            assert(less <= est_i + est_i / 1);
-            assert(greater <= nrows - i + rows_per_basement/2);
+            uint64_t est_i = i * 2 + rows_per_basement;
+            assert(less <= est_i + random_fudge);
+            assert(greater <= nrows - i + rows_per_basement + random_fudge);
        }
    }


--- a/src/ydb_db.cc
+++ b/src/ydb_db.cc
@@ -642,17 +642,30 @@ toku_db_stat64(DB * db, DB_TXN *txn, DB_BTREE_STAT64 *s) {
 }

 static int 
-toku_db_key_range64(DB* db, DB_TXN* txn __attribute__((__unused__)), DBT* key, uint64_t* less, uint64_t* equal, uint64_t* greater, int* is_exact) {
+toku_db_keys_range64(DB* db, DB_TXN* txn __attribute__((__unused__)), DBT* keyleft, DBT* keyright, uint64_t* less, uint64_t* left, uint64_t* between, uint64_t *right, uint64_t *greater, bool* middle_3_exact) {
    HANDLE_PANICKED_DB(db);
    HANDLE_DB_ILLEGAL_WORKING_PARENT_TXN(db, txn);

-    // note that toku_ft_keyrange does not have a txn param
-    // this will be fixed later
-    // temporarily, because the caller, locked_db_keyrange, 
-    // has the ydb lock, we are ok
-    toku_ft_keyrange(db->i->ft_handle, key, less, equal, greater);
-    // temporarily set is_exact to 0 because ft_keyrange does not have this parameter
-    *is_exact = 0;
+    // note that we ignore the txn param.  It would be more complicated to support it.
+    // TODO(yoni): Maybe add support for txns later?  How would we do this?  ydb lock comment about db_keyrange64 is obsolete.
+    toku_ft_keysrange(db->i->ft_handle, keyleft, keyright, less, left, between, right, greater, middle_3_exact);
+    return 0;
+}
+
+static int 
+toku_db_key_range64(DB* db, DB_TXN* txn, DBT* key, uint64_t* less_p, uint64_t* equal_p, uint64_t* greater_p, int* is_exact) {
+    uint64_t less, equal_left, middle, equal_right, greater;
+    bool ignore;
+    int r = toku_db_keys_range64(db, txn, key, NULL, &less, &equal_left, &middle, &equal_right, &greater, &ignore);
+    if (r == 0) {
+        *less_p = less;
+        *equal_p = equal_left;
+        *greater_p = middle;
+        paranoid_invariant_zero(greater);  // no keys are greater than positive infinity
+        paranoid_invariant_zero(equal_right);  // no keys are equal to positive infinity
+        // toku_ft_keysrange does not know when all 3 are exact, so set is_exact to false
+        *is_exact = false;
+    }
    return 0;
 }

@@ -928,6 +941,7 @@ toku_db_create(DB ** db, DB_ENV * env, uint32_t flags) {
    USDB(pre_acquire_table_lock);
    USDB(pre_acquire_fileops_lock);
    USDB(key_range64);
+    USDB(keys_range64);
    USDB(hot_optimize);
    USDB(stat64);
    USDB(get_fractal_tree_info64);