The first loader gets 1/2 of cachetable memory.

* That's 2/3 of 3/4, which is calculated as 1/4 is unreservable. The loader asks for 2/3 of what's reservable, getting one half. The second loader gets 1/6 of cachetable memory. * That's 2/3 of 1/4: The loader asks for 2/3 of what's reservable. 1/2 has been reserved. 1/4 is unreservable. 1/4 is reservable. 2/3 of 1/4 is 1/6. The third loader gets 1/18 of cachetable memory. * That's 2/3 or 1/12. (1/4 is unreservable. 1/2 was reserved by the first loader. 1/6 by the second. That leaves 1/12) Generally the next one gets 1/3 of what the previous one got. Refs #2759. [t:2759] git-svn-id: file:///svn/toku/tokudb@21564 c7de825b-a66e-492c-adef-691d508d4ae1

The first loader gets 1/2 of cachetable memory.
* That's 2/3 of 3/4, which is calculated as 1/4 is unreservable. The loader asks for 2/3 of what's reservable, getting one half. The second loader gets 1/6 of cachetable memory. * That's 2/3 of 1/4: The loader asks for 2/3 of what's reservable. 1/2 has been reserved. 1/4 is unreservable. 1/4 is reservable. 2/3 of 1/4 is 1/6. The third loader gets 1/18 of cachetable memory. * That's 2/3 or 1/12. (1/4 is unreservable. 1/2 was reserved by the first loader. 1/6 by the second. That leaves 1/12) Generally the next one gets 1/3 of what the previous one got. Refs #2759. [t:2759] git-svn-id: file:///svn/toku/tokudb@21564 c7de825b-a66e-492c-adef-691d508d4ae1
c49d7a8c · Bradley C. Kuszmaul · Yoni Fogel · f635f4d4 · c49d7a8c · c49d7a8c
Commit c49d7a8c authored Apr 16, 2013 by Bradley C. Kuszmaul Committed by Yoni Fogel Apr 16, 2013
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newbrt/brtloader.c newbrt/brtloader.c +1 -1

newbrt/cachetable.c newbrt/cachetable.c +6 -3

newbrt/tests/brtloader-test-vm.c newbrt/tests/brtloader-test-vm.c +16 -8

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--- a/newbrt/brtloader.c
+++ b/newbrt/brtloader.c
@@ -406,7 +406,7 @@ int toku_brt_loader_internal_init (/* out */ BRTLOADER *blp,
    bl->generate_row_for_put = g;
    bl->cachetable = cachetable;
    if (bl->cachetable)
-        bl->reserved_memory = toku_cachetable_reserve_memory(bl->cachetable, 0.5);
+        bl->reserved_memory = toku_cachetable_reserve_memory(bl->cachetable, 2.0/3.0); // allocate 2/3 of the unreserved part (which is 3/4 of the memory to start with).
    else
 	bl->reserved_memory = 512*1024*1024; // if no cache table use 512MB.
    //printf("Reserved memory=%ld\n", bl->reserved_memory);

--- a/newbrt/cachetable.c
+++ b/newbrt/cachetable.c
@@ -277,6 +277,9 @@ u_int32_t toku_get_checkpoint_period (CACHETABLE ct) {
    return toku_minicron_get_period(&ct->checkpointer);
 }
+// reserve 25% as "unreservable".  The loader cannot have it.
+#define unreservable_memory(size) ((size)/4)
 int toku_create_cachetable(CACHETABLE *result, long size_limit, LSN UU(initial_lsn), TOKULOGGER logger) {
    TAGMALLOC(CACHETABLE, ct);
    if (ct == 0) return ENOMEM;
@@ -285,7 +288,7 @@ int toku_create_cachetable(CACHETABLE *result, long size_limit, LSN UU(initial_l
    rwlock_init(&ct->pending_lock);
    XCALLOC_N(ct->table_size, ct->table);
    ct->size_limit = size_limit;
-    ct->size_reserved = 0;
+    ct->size_reserved = unreservable_memory(size_limit);
    ct->logger = logger;
    toku_init_workers(&ct->wq, &ct->threadpool);
    ct->mutex = workqueue_lock_ref(&ct->wq);
@@ -299,7 +302,7 @@ int toku_create_cachetable(CACHETABLE *result, long size_limit, LSN UU(initial_l
    return 0;
 }
-uint64_t toku_cachetable_reserve_memory(CACHETABLE ct, double fraction) {
+u_int64_t toku_cachetable_reserve_memory(CACHETABLE ct, double fraction) {
    cachetable_lock(ct);
    cachetable_wait_write(ct);
    uint64_t reserved_memory = fraction*(ct->size_limit-ct->size_reserved);
@@ -320,7 +323,7 @@ void toku_cachetable_release_reserved_memory(CACHETABLE ct, uint64_t reserved_me
    cachetable_lock(ct);
    ct->size_current -= reserved_memory;
    ct->size_reserved -= reserved_memory;
-    assert(ct->size_current >= 0);
+    assert(ct->size_current >= unreservable_memory(ct->size_limit));
    cachetable_unlock(ct);
 }

--- a/newbrt/tests/brtloader-test-vm.c
+++ b/newbrt/tests/brtloader-test-vm.c
@@ -7,9 +7,8 @@
 /* Test for #2755.  The brtloader is using too much VM. */
-static void test_cachetable_reservation (void) {
+static void test_cachetable_reservation (long size) {
    CACHETABLE ct;
-    long size = 1L<<28;
    {
 	int r = toku_create_cachetable(&ct, size, ZERO_LSN, NULL);
 	assert(r==0);
@@ -21,11 +20,17 @@ static void test_cachetable_reservation (void) {
 	uint64_t r1_bound = r0_bound/2;
 	uint64_t r2 = toku_cachetable_reserve_memory(ct, 0.5);
 	uint64_t r2_bound = r1_bound/2;
-	assert(r0 < r0_bound);
+	printf("%ld: r0=%ld r1=%ld r2=%ld\n", size, r0, r1, r2);
-	assert(r1 < r1_bound);
+	assert(r0 <= r0_bound);
-	assert(r2 < r2_bound);
+	assert(r1 <= r1_bound);
-	assert(r1 < r0);
+	assert(r2 <= r2_bound);
-	assert(r2 < r1);
+	assert(r1 <= r0);
+	assert(r2 <= r1);
+	long unreservable_part = size * 0.25;
+	assert(r0 <= (size - unreservable_part)*0.5);
+	assert(r1 <= (size - unreservable_part - r0)*0.5);
+	assert(r2 <= (size - unreservable_part - r0 -1)*0.5);
    }
    {
 	int r = toku_cachetable_close(&ct);
@@ -35,6 +40,9 @@ static void test_cachetable_reservation (void) {
 }
 int main (int argc __attribute__((__unused__)), char *argv[] __attribute__((__unused__))) {
-    test_cachetable_reservation();
+    test_cachetable_reservation(1L<<28);
+    test_cachetable_reservation(1LL<<33);
+    test_cachetable_reservation(3L<<28);
+    test_cachetable_reservation((3L<<28) - 107);
    return 0;
 }