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Commit c1c45c65 authored by Zardosht Kasheff's avatar Zardosht Kasheff Committed by Yoni Fogel
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refs #5442, merge to main 

git-svn-id: file:///svn/toku/tokudb@47493 c7de825b-a66e-492c-adef-691d508d4ae1
parent 416ecb88
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Showing with 135 additions and 97 deletions
ft/ft-cachetable-wrappers.cc
View file @ c1c45c65
......@@ -84,7 +84,6 @@ create_new_ftnode_with_dep_nodes(
&fullhash,
result);
assert(ft->h->nodesize > 0);
assert(ft->h->basementnodesize > 0);
if (height == 0) {
assert(n_children > 0);
......@@ -96,10 +95,8 @@ create_new_ftnode_with_dep_nodes(
height,
n_children,
ft->h->layout_version,
ft->h->nodesize,
ft->h->flags);
assert((*result)->nodesize > 0);
(*result)->fullhash = fullhash;
}
......
ft/ft-flusher.cc
View file @ c1c45c65
......@@ -208,10 +208,19 @@ never_recursively_flush(FTNODE UU(child), void* UU(extra))
return false;
}
/**
* Flusher thread ("normal" flushing) implementation.
*/
struct flush_status_update_extra {
int cascades;
uint32_t nodesize;
};
static bool
recurse_if_child_is_gorged(FTNODE child, void* UU(extra))
recurse_if_child_is_gorged(FTNODE child, void* extra)
{
return toku_ft_nonleaf_is_gorged(child);
struct flush_status_update_extra *fste = (flush_status_update_extra *)extra;
return toku_ft_nonleaf_is_gorged(child, fste->nodesize);
}
int
......@@ -268,13 +277,6 @@ flusher_advice_init(
fa->extra = extra;
}
/**
* Flusher thread ("normal" flushing) implementation.
*/
struct flush_status_update_extra {
int cascades;
};
static void
flt_update_status(FTNODE child,
int UU(dirtied),
......@@ -288,9 +290,10 @@ flt_update_status(FTNODE child,
}
static void
flt_flusher_advice_init(struct flusher_advice *fa, struct flush_status_update_extra *fste)
flt_flusher_advice_init(struct flusher_advice *fa, struct flush_status_update_extra *fste, uint32_t nodesize)
{
fste->cascades = 0;
fste->nodesize = nodesize;
flusher_advice_init(fa,
pick_heaviest_child,
dont_destroy_basement_nodes,
......@@ -434,9 +437,10 @@ ct_update_status(FTNODE child,
}
static void
ct_flusher_advice_init(struct flusher_advice *fa, struct flush_status_update_extra* fste)
ct_flusher_advice_init(struct flusher_advice *fa, struct flush_status_update_extra* fste, uint32_t nodesize)
{
fste->cascades = 0;
fste->nodesize = nodesize;
flusher_advice_init(fa,
pick_heaviest_child,
do_destroy_basement_nodes,
......@@ -739,17 +743,12 @@ ftleaf_split(
);
}
//printf("%s:%d splitting leaf %" PRIu64 " which is size %u (targetsize = %u)\n", __FILE__, __LINE__, node->thisnodename.b, toku_serialize_ftnode_size(node), node->nodesize);
assert(node->height==0);
assert(node->nodesize>0);
toku_assert_entire_node_in_memory(node);
verify_all_in_mempool(node);
MSN max_msn_applied_to_node = node->max_msn_applied_to_node_on_disk;
//printf("%s:%d A is at %lld\n", __FILE__, __LINE__, A->thisnodename);
//printf("%s:%d B is at %lld nodesize=%d\n", __FILE__, __LINE__, B->thisnodename, B->nodesize);
// variables that say where we will do the split. We do it in the basement node indexed at
// at last_bn_on_left and at the index last_le_on_left_within_bn within that basement node.
int last_bn_on_left = 0; // last_bn_on_left may or may not be fully included
......@@ -791,9 +790,7 @@ ftleaf_split(
0,
num_children_in_b,
h->h->layout_version,
h->h->nodesize,
h->h->flags);
assert(B->nodesize > 0);
B->fullhash = fullhash;
}
else {
......@@ -987,8 +984,6 @@ ft_split_child(
assert(toku_bnc_nbytesinbuf(BNC(node, childnum))==0); // require that the buffer for this child is empty
FTNODE nodea, nodeb;
DBT splitk;
// printf("%s:%d node %" PRIu64 "->u.n.n_children=%d height=%d\n", __FILE__, __LINE__, node->thisnodename.b, node->u.n.n_children, node->height);
assert(h->h->nodesize>=node->nodesize); /* otherwise we might be in trouble because the nodesize shrank. */
// for test
call_flusher_thread_callback(flt_flush_before_split);
......@@ -1167,7 +1162,9 @@ maybe_merge_pinned_leaf_nodes(
DBT *parent_splitk,
bool *did_merge,
bool *did_rebalance,
DBT *splitk)
DBT *splitk,
uint32_t nodesize
)
// Effect: Either merge a and b into one one node (merge them into a) and set *did_merge = true.
// (We do this if the resulting node is not fissible)
// or distribute the leafentries evenly between a and b, and set *did_rebalance = true.
......@@ -1175,10 +1172,10 @@ maybe_merge_pinned_leaf_nodes(
{
unsigned int sizea = toku_serialize_ftnode_size(a);
unsigned int sizeb = toku_serialize_ftnode_size(b);
if ((sizea + sizeb)*4 > (a->nodesize*3)) {
if ((sizea + sizeb)*4 > (nodesize*3)) {
// the combined size is more than 3/4 of a node, so don't merge them.
*did_merge = false;
if (sizea*4 > a->nodesize && sizeb*4 > a->nodesize) {
if (sizea*4 > nodesize && sizeb*4 > nodesize) {
// no need to do anything if both are more than 1/4 of a node.
*did_rebalance = false;
toku_clone_dbt(splitk, *parent_splitk);
......@@ -1248,7 +1245,9 @@ maybe_merge_pinned_nodes(
FTNODE b,
bool *did_merge,
bool *did_rebalance,
DBT *splitk)
DBT *splitk,
uint32_t nodesize
)
// Effect: either merge a and b into one node (merge them into a) and set *did_merge = true.
// (We do this if the resulting node is not fissible)
// or distribute a and b evenly and set *did_merge = false and *did_rebalance = true
......@@ -1282,7 +1281,7 @@ maybe_merge_pinned_nodes(
}
}
if (a->height == 0) {
maybe_merge_pinned_leaf_nodes(a, b, parent_splitk, did_merge, did_rebalance, splitk);
maybe_merge_pinned_leaf_nodes(a, b, parent_splitk, did_merge, did_rebalance, splitk, nodesize);
} else {
maybe_merge_pinned_nonleaf_nodes(parent_splitk, a, b, did_merge, did_rebalance, splitk);
}
......@@ -1374,7 +1373,7 @@ ft_merge_child(
toku_init_dbt(&splitk);
DBT *old_split_key = &node->childkeys[childnuma];
unsigned int deleted_size = old_split_key->size;
maybe_merge_pinned_nodes(node, &node->childkeys[childnuma], childa, childb, &did_merge, &did_rebalance, &splitk);
maybe_merge_pinned_nodes(node, &node->childkeys[childnuma], childa, childb, &did_merge, &did_rebalance, &splitk, h->h->nodesize);
if (childa->height>0) {
for (int i=0; i+1<childa->n_children; i++) {
assert(childa->childkeys[i].data);
......@@ -1541,7 +1540,7 @@ flush_some_child(
// we wont be splitting/merging child
// and we have already replaced the bnc
// for the root with a fresh one
enum reactivity child_re = get_node_reactivity(child);
enum reactivity child_re = get_node_reactivity(child, h->h->nodesize);
if (parent && child_re == RE_STABLE) {
toku_unpin_ftnode_off_client_thread(h, parent);
parent = NULL;
......@@ -1571,7 +1570,7 @@ flush_some_child(
// let's get the reactivity of the child again,
// it is possible that the flush got rid of some values
// and now the parent is no longer reactive
child_re = get_node_reactivity(child);
child_re = get_node_reactivity(child, h->h->nodesize);
// if the parent has been unpinned above, then
// this is our only option, even if the child is not stable
// if the child is not stable, we'll handle it the next
......@@ -1716,7 +1715,7 @@ toku_ftnode_cleaner_callback(
if (toku_bnc_nbytesinbuf(BNC(node, childnum)) > 0) {
struct flusher_advice fa;
struct flush_status_update_extra fste;
ct_flusher_advice_init(&fa, &fste);
ct_flusher_advice_init(&fa, &fste, h->h->nodesize);
flush_some_child(h, node, &fa);
} else {
toku_unpin_ftnode_off_client_thread(h, node);
......@@ -1754,7 +1753,7 @@ static void flush_node_fun(void *fe_v)
struct flusher_advice fa;
struct flush_status_update_extra fste;
flt_flusher_advice_init(&fa, &fste);
flt_flusher_advice_init(&fa, &fste, fe->h->h->nodesize);
if (fe->bnc) {
// In this case, we have a bnc to flush to a node
......@@ -1774,7 +1773,7 @@ static void flush_node_fun(void *fe_v)
// If so, call flush_some_child on the node, and it is the responsibility
// of flush_some_child to unlock the node
// otherwise, we unlock the node here.
if (fe->node->height > 0 && toku_ft_nonleaf_is_gorged(fe->node)) {
if (fe->node->height > 0 && toku_ft_nonleaf_is_gorged(fe->node, fe->h->h->nodesize)) {
flush_some_child(fe->h, fe->node, &fa);
}
else {
......
ft/ft-internal.h
View file @ c1c45c65
......@@ -139,11 +139,11 @@ int toku_bnc_flush_to_child(
FTNODE child
);
bool
toku_ft_nonleaf_is_gorged(FTNODE node);
toku_ft_nonleaf_is_gorged(FTNODE node, uint32_t nodesize);
enum reactivity get_nonleaf_reactivity (FTNODE node);
enum reactivity get_node_reactivity (FTNODE node);
enum reactivity get_node_reactivity (FTNODE node, uint32_t nodesize);
// data of an available partition of a leaf ftnode
......@@ -232,7 +232,6 @@ struct __attribute__((__packed__)) ftnode_partition {
struct ftnode {
MSN max_msn_applied_to_node_on_disk; // max_msn_applied that will be written to disk
unsigned int nodesize;
unsigned int flags;
BLOCKNUM thisnodename; // Which block number is this node?
int layout_version; // What version of the data structure?
......@@ -851,7 +850,7 @@ void toku_create_new_ftnode (FT_HANDLE t, FTNODE *result, int height, int n_chil
// Effect: Fill in N as an empty ftnode.
void toku_initialize_empty_ftnode (FTNODE n, BLOCKNUM nodename, int height, int num_children,
int layout_version, unsigned int nodesize, unsigned int flags);
int layout_version, unsigned int flags);
unsigned int toku_ftnode_which_child(FTNODE node, const DBT *k,
DESCRIPTOR desc, ft_compare_func cmp)
......
ft/ft-node-deserialize.cc
View file @ c1c45c65
......@@ -124,7 +124,7 @@ check_node_info_checksum(struct rbuf *rb)
void
read_legacy_node_info(FTNODE node, struct rbuf *rb, int version)
{
node->nodesize = rbuf_int(rb); // 1. nodesize
(void)rbuf_int(rb); // 1. nodesize
node->flags = rbuf_int(rb); // 2. flags
node->height = rbuf_int(rb); // 3. height
......
ft/ft-ops.cc
View file @ c1c45c65
......@@ -244,15 +244,15 @@ get_leaf_num_entries(FTNODE node) {
}
static enum reactivity
get_leaf_reactivity (FTNODE node) {
get_leaf_reactivity (FTNODE node, uint32_t nodesize) {
enum reactivity re = RE_STABLE;
toku_assert_entire_node_in_memory(node);
assert(node->height==0);
unsigned int size = toku_serialize_ftnode_size(node);
if (size > node->nodesize && get_leaf_num_entries(node) > 1) {
if (size > nodesize && get_leaf_num_entries(node) > 1) {
re = RE_FISSIBLE;
}
else if ((size*4) < node->nodesize && !BLB_SEQINSERT(node, node->n_children-1)) {
else if ((size*4) < nodesize && !BLB_SEQINSERT(node, node->n_children-1)) {
re = RE_FUSIBLE;
}
return re;
......@@ -268,10 +268,10 @@ get_nonleaf_reactivity (FTNODE node) {
}
enum reactivity
get_node_reactivity (FTNODE node) {
get_node_reactivity (FTNODE node, uint32_t nodesize) {
toku_assert_entire_node_in_memory(node);
if (node->height==0)
return get_leaf_reactivity(node);
return get_leaf_reactivity(node, nodesize);
else
return get_nonleaf_reactivity(node);
}
......@@ -284,7 +284,7 @@ toku_bnc_nbytesinbuf(NONLEAF_CHILDINFO bnc)
// return true if the size of the buffers plus the amount of work done is large enough. (But return false if there is nothing to be flushed (the buffers empty)).
bool
toku_ft_nonleaf_is_gorged (FTNODE node) {
toku_ft_nonleaf_is_gorged (FTNODE node, uint32_t nodesize) {
uint64_t size = toku_serialize_ftnode_size(node);
bool buffers_are_empty = true;
......@@ -293,7 +293,7 @@ toku_ft_nonleaf_is_gorged (FTNODE node) {
// the nonleaf node is gorged if the following holds true:
// - the buffers are non-empty
// - the total workdone by the buffers PLUS the size of the buffers
// is greater than node->nodesize (which as of Maxwell should be
// is greater than nodesize (which as of Maxwell should be
// 4MB)
//
assert(node->height > 0);
......@@ -306,7 +306,7 @@ toku_ft_nonleaf_is_gorged (FTNODE node) {
break;
}
}
return ((size > node->nodesize)
return ((size > nodesize)
&&
(!buffers_are_empty));
}
......@@ -662,7 +662,6 @@ void toku_ftnode_clone_callback(
}
cloned_node->max_msn_applied_to_node_on_disk = node->max_msn_applied_to_node_on_disk;
cloned_node->nodesize = node->nodesize;
cloned_node->flags = node->flags;
cloned_node->thisnodename = node->thisnodename;
cloned_node->layout_version = node->layout_version;
......@@ -1234,7 +1233,7 @@ void toku_ftnode_free (FTNODE *nodep) {
}
void
toku_initialize_empty_ftnode (FTNODE n, BLOCKNUM nodename, int height, int num_children, int layout_version, unsigned int nodesize, unsigned int flags)
toku_initialize_empty_ftnode (FTNODE n, BLOCKNUM nodename, int height, int num_children, int layout_version, unsigned int flags)
// Effect: Fill in N as an empty ftnode.
{
assert(layout_version != 0);
......@@ -1246,7 +1245,6 @@ toku_initialize_empty_ftnode (FTNODE n, BLOCKNUM nodename, int height, int num_c
STATUS_VALUE(FT_CREATE_NONLEAF)++;
n->max_msn_applied_to_node_on_disk = ZERO_MSN; // correct value for root node, harmless for others
n->nodesize = nodesize;
n->flags = flags;
n->thisnodename = nodename;
n->layout_version = layout_version;
......@@ -1312,7 +1310,6 @@ ft_init_new_root(FT ft, FTNODE oldroot, FTNODE *newrootp)
new_height,
1,
ft->h->layout_version,
ft->h->nodesize,
ft->h->flags
);
MSN msna = oldroot->max_msn_applied_to_node_on_disk;
......@@ -2092,7 +2089,7 @@ static void
ft_process_maybe_reactive_root (FT ft, FTNODE *nodep) {
FTNODE node = *nodep;
toku_assert_entire_node_in_memory(node);
enum reactivity re = get_node_reactivity(node);
enum reactivity re = get_node_reactivity(node, ft->h->nodesize);
switch (re) {
case RE_STABLE:
return;
......@@ -2556,7 +2553,7 @@ toku_ft_root_put_cmd (FT ft, FT_MSG_S * cmd)
// if we call flush_some_child, then that function unpins the root
// otherwise, we unpin ourselves
if (node->height > 0 && toku_ft_nonleaf_is_gorged(node)) {
if (node->height > 0 && toku_ft_nonleaf_is_gorged(node, ft->h->nodesize)) {
flush_node_on_background_thread(ft, node);
}
else {
......@@ -5478,8 +5475,8 @@ toku_dump_ftnode (FILE *file, FT_HANDLE brt, BLOCKNUM blocknum, int depth, const
assert(node->fullhash==fullhash);
fprintf(file, "%*sNode=%p\n", depth, "", node);
fprintf(file, "%*sNode %" PRId64 " nodesize=%u height=%d n_children=%d keyrange=%s %s\n",
depth, "", blocknum.b, node->nodesize, node->height, node->n_children, (char*)(lorange ? lorange->data : 0), (char*)(hirange ? hirange->data : 0));
fprintf(file, "%*sNode %" PRId64 " height=%d n_children=%d keyrange=%s %s\n",
depth, "", blocknum.b, node->height, node->n_children, (char*)(lorange ? lorange->data : 0), (char*)(hirange ? hirange->data : 0));
{
int i;
for (i=0; i+1< node->n_children; i++) {
......
ft/ft.cc
View file @ c1c45c65
......@@ -351,7 +351,7 @@ void toku_node_save_ct_pair(void *value_data, PAIR p) {
static int setup_initial_ft_root_node (FT ft, BLOCKNUM blocknum) {
FTNODE XMALLOC(node);
toku_initialize_empty_ftnode(node, blocknum, 0, 1, ft->h->layout_version, ft->h->nodesize, ft->h->flags);
toku_initialize_empty_ftnode(node, blocknum, 0, 1, ft->h->layout_version, ft->h->flags);
BP_STATE(node,0) = PT_AVAIL;
uint32_t fullhash = toku_cachetable_hash(ft->cf, blocknum);
......
ft/ft_node-serialize.cc
View file @ c1c45c65
......@@ -386,7 +386,7 @@ static void serialize_ftnode_info(FTNODE node,
wbuf_init(&wb, sb->uncompressed_ptr, sb->uncompressed_size);
wbuf_MSN(&wb, node->max_msn_applied_to_node_on_disk);
wbuf_nocrc_uint(&wb, node->nodesize);
wbuf_nocrc_uint(&wb, 0); // write a dummy value for where node->nodesize used to be
wbuf_nocrc_uint(&wb, node->flags);
wbuf_nocrc_int (&wb, node->height);
// pivot information
......@@ -1259,7 +1259,7 @@ deserialize_ftnode_info(
rbuf_init(&rb, (unsigned char *) sb->uncompressed_ptr, data_size);
node->max_msn_applied_to_node_on_disk = rbuf_msn(&rb);
node->nodesize = rbuf_int(&rb);
(void)rbuf_int(&rb);
node->flags = rbuf_int(&rb);
node->height = rbuf_int(&rb);
if (node->layout_version_read_from_disk < FT_LAYOUT_VERSION_19) {
......@@ -2126,7 +2126,7 @@ deserialize_and_upgrade_ftnode(FTNODE node,
// The remaining offsets into the rbuf do not map to the current
// version, so we need to fill in the blanks and ignore older
// fields.
node->nodesize = rbuf_int(&rb); // 1. nodesize
(void)rbuf_int(&rb); // 1. nodesize
node->flags = rbuf_int(&rb); // 2. flags
node->height = rbuf_int(&rb); // 3. height
......
ft/ftdump.cc
View file @ c1c45c65
......@@ -137,7 +137,6 @@ dump_node (int f, BLOCKNUM blocknum, FT h) {
toku_translate_blocknum_to_offset_size(h->blocktable, blocknum, &diskoffset, &disksize);
printf(" diskoffset =%" PRId64 "\n", diskoffset);
printf(" disksize =%" PRId64 "\n", disksize);
printf(" nodesize =%u\n", n->nodesize);
printf(" serialize_size =%u\n", toku_serialize_ftnode_size(n));
printf(" flags =%u\n", n->flags);
printf(" thisnodename=%" PRId64 "\n", n->thisnodename.b);
......
ft/ftloader.cc
View file @ c1c45c65
......@@ -2113,7 +2113,7 @@ static void putbuf_int64 (struct dbuf *dbuf, long long v) {
putbuf_int32(dbuf, v&0xFFFFFFFF);
}
static struct leaf_buf *start_leaf (struct dbout *out, const DESCRIPTOR UU(desc), int64_t lblocknum, TXNID xid, uint32_t target_nodesize) {
static struct leaf_buf *start_leaf (struct dbout *out, const DESCRIPTOR UU(desc), int64_t lblocknum, TXNID xid, uint32_t UU(target_nodesize)) {
invariant(lblocknum < out->n_translations_limit);
struct leaf_buf *XMALLOC(lbuf);
......@@ -2132,7 +2132,7 @@ static struct leaf_buf *start_leaf (struct dbout *out, const DESCRIPTOR UU(desc)
}
FTNODE XMALLOC(node);
toku_initialize_empty_ftnode(node, lbuf->blocknum, 0 /*height*/, 1 /*basement nodes*/, FT_LAYOUT_VERSION, target_nodesize, 0);
toku_initialize_empty_ftnode(node, lbuf->blocknum, 0 /*height*/, 1 /*basement nodes*/, FT_LAYOUT_VERSION, 0);
BP_STATE(node, 0) = PT_AVAIL;
lbuf->node = node;
......@@ -2900,7 +2900,7 @@ static int setup_nonleaf_block (int n_children,
static void write_nonleaf_node (FTLOADER bl, struct dbout *out, int64_t blocknum_of_new_node, int n_children,
DBT *pivots, /* must free this array, as well as the things it points t */
struct subtree_info *subtree_info, int height, const DESCRIPTOR UU(desc), uint32_t target_nodesize, uint32_t target_basementnodesize, enum toku_compression_method target_compression_method)
struct subtree_info *subtree_info, int height, const DESCRIPTOR UU(desc), uint32_t UU(target_nodesize), uint32_t target_basementnodesize, enum toku_compression_method target_compression_method)
{
//Nodes do not currently touch descriptors
invariant(height > 0);
......@@ -2909,7 +2909,7 @@ static void write_nonleaf_node (FTLOADER bl, struct dbout *out, int64_t blocknum
FTNODE XMALLOC(node);
toku_initialize_empty_ftnode(node, make_blocknum(blocknum_of_new_node), height, n_children,
FT_LAYOUT_VERSION, target_nodesize, 0);
FT_LAYOUT_VERSION, 0);
node->totalchildkeylens = 0;
for (int i=0; i<n_children-1; i++) {
toku_clone_dbt(&node->childkeys[i], pivots[i]);
......
ft/tests/ft-bfe-query.cc
View file @ c1c45c65
......@@ -278,7 +278,6 @@ test_subset_read(int fd, FT_HANDLE UU(brt), FT brt_h) {
static void
test_prefetching(void) {
// struct ft_handle source_ft;
const int nodesize = 1024;
struct ftnode sn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -287,7 +286,6 @@ test_prefetching(void) {
// source_ft.fd=fd;
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......
ft/tests/ft-clock-test.cc
View file @ c1c45c65
......@@ -227,7 +227,6 @@ test3_leaf(int fd, FT brt_h, FTNODE *dn) {
static void
test_serialize_nonleaf(void) {
// struct ft_handle source_ft;
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -237,7 +236,6 @@ test_serialize_nonleaf(void) {
// source_ft.fd=fd;
sn.max_msn_applied_to_node_on_disk.msn = 0;
char *hello_string;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -329,7 +327,6 @@ test_serialize_nonleaf(void) {
static void
test_serialize_leaf(void) {
// struct ft_handle source_ft;
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -337,7 +334,6 @@ test_serialize_leaf(void) {
int r;
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......
ft/tests/ft-serialize-benchmark.cc
View file @ c1c45c65
......@@ -56,7 +56,6 @@ long_key_cmp(DB *UU(e), const DBT *a, const DBT *b)
static void
test_serialize_leaf(int valsize, int nelts, double entropy) {
// struct ft_handle source_ft;
const int nodesize = (1<<22);
struct ftnode *sn, *dn;
int fd = open(__SRCFILE__ ".ft", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -66,7 +65,6 @@ test_serialize_leaf(int valsize, int nelts, double entropy) {
XCALLOC(sn);
sn->max_msn_applied_to_node_on_disk.msn = 0;
sn->nodesize = nodesize;
sn->flags = 0x11223344;
sn->thisnodename.b = 20;
sn->layout_version = FT_LAYOUT_VERSION;
......@@ -181,7 +179,6 @@ test_serialize_leaf(int valsize, int nelts, double entropy) {
static void
test_serialize_nonleaf(int valsize, int nelts, double entropy) {
// struct ft_handle source_ft;
const int nodesize = (1<<22);
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -190,7 +187,6 @@ test_serialize_nonleaf(int valsize, int nelts, double entropy) {
// source_ft.fd=fd;
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......
ft/tests/ft-serialize-test.cc
View file @ c1c45c65
......@@ -204,7 +204,6 @@ static void write_sn_to_disk(int fd, FT_HANDLE brt, FTNODE sn, FTNODE_DISK_DATA*
static void
test_serialize_leaf_check_msn(enum ftnode_verify_type bft, bool do_clone) {
// struct ft_handle source_ft;
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -215,7 +214,6 @@ test_serialize_leaf_check_msn(enum ftnode_verify_type bft, bool do_clone) {
#define POSTSERIALIZE_MSN_ON_DISK ((MSN) { MIN_MSN.msn + 84 })
sn.max_msn_applied_to_node_on_disk = PRESERIALIZE_MSN_ON_DISK;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -362,7 +360,6 @@ test_serialize_leaf_with_large_pivots(enum ftnode_verify_type bft, bool do_clone
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = 4*(1<<20);
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -509,7 +506,6 @@ test_serialize_leaf_with_many_rows(enum ftnode_verify_type bft, bool do_clone) {
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = 4*(1<<20);
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -653,7 +649,6 @@ test_serialize_leaf_with_large_rows(enum ftnode_verify_type bft, bool do_clone)
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = 4*(1<<20);
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -797,7 +792,6 @@ test_serialize_leaf_with_large_rows(enum ftnode_verify_type bft, bool do_clone)
static void
test_serialize_leaf_with_empty_basement_nodes(enum ftnode_verify_type bft, bool do_clone) {
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -805,7 +799,6 @@ test_serialize_leaf_with_empty_basement_nodes(enum ftnode_verify_type bft, bool
int r;
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -950,7 +943,6 @@ test_serialize_leaf_with_empty_basement_nodes(enum ftnode_verify_type bft, bool
static void
test_serialize_leaf_with_multiple_empty_basement_nodes(enum ftnode_verify_type bft, bool do_clone) {
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -958,7 +950,6 @@ test_serialize_leaf_with_multiple_empty_basement_nodes(enum ftnode_verify_type b
int r;
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -1070,7 +1061,6 @@ test_serialize_leaf_with_multiple_empty_basement_nodes(enum ftnode_verify_type b
static void
test_serialize_leaf(enum ftnode_verify_type bft, bool do_clone) {
// struct ft_handle source_ft;
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -1080,7 +1070,6 @@ test_serialize_leaf(enum ftnode_verify_type bft, bool do_clone) {
FTNODE_DISK_DATA dest_ndd = NULL;
sn.max_msn_applied_to_node_on_disk.msn = 0;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......@@ -1214,7 +1203,6 @@ test_serialize_leaf(enum ftnode_verify_type bft, bool do_clone) {
static void
test_serialize_nonleaf(enum ftnode_verify_type bft, bool do_clone) {
// struct ft_handle source_ft;
const int nodesize = 1024;
struct ftnode sn, *dn;
int fd = open(__SRCFILE__ ".ft_handle", O_RDWR|O_CREAT|O_BINARY, S_IRWXU|S_IRWXG|S_IRWXO); assert(fd >= 0);
......@@ -1224,7 +1212,6 @@ test_serialize_nonleaf(enum ftnode_verify_type bft, bool do_clone) {
// source_ft.fd=fd;
sn.max_msn_applied_to_node_on_disk.msn = 0;
char *hello_string;
sn.nodesize = nodesize;
sn.flags = 0x11223344;
sn.thisnodename.b = 20;
sn.layout_version = FT_LAYOUT_VERSION;
......
ft/tests/orthopush-flush.cc
View file @ c1c45c65
......@@ -271,7 +271,7 @@ flush_to_internal(FT_HANDLE t) {
FTNODE XMALLOC(child);
BLOCKNUM blocknum = { 42 };
toku_initialize_empty_ftnode(child, blocknum, 1, 1, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(child, blocknum, 1, 1, FT_LAYOUT_VERSION, 0);
destroy_nonleaf_childinfo(BNC(child, 0));
set_BNC(child, 0, child_bnc);
BP_STATE(child, 0) = PT_AVAIL;
......@@ -401,7 +401,7 @@ flush_to_internal_multiple(FT_HANDLE t) {
FTNODE XMALLOC(child);
BLOCKNUM blocknum = { 42 };
toku_initialize_empty_ftnode(child, blocknum, 1, 8, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(child, blocknum, 1, 8, FT_LAYOUT_VERSION, 0);
for (i = 0; i < 8; ++i) {
destroy_nonleaf_childinfo(BNC(child, i));
set_BNC(child, i, child_bncs[i]);
......@@ -532,7 +532,7 @@ flush_to_leaf(FT_HANDLE t, bool make_leaf_up_to_date, bool use_flush) {
FTNODE XMALLOC(child);
BLOCKNUM blocknum = { 42 };
toku_initialize_empty_ftnode(child, blocknum, 0, 8, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(child, blocknum, 0, 8, FT_LAYOUT_VERSION, 0);
for (i = 0; i < 8; ++i) {
destroy_basement_node(BLB(child, i));
set_BLB(child, i, child_blbs[i]);
......@@ -608,7 +608,7 @@ flush_to_leaf(FT_HANDLE t, bool make_leaf_up_to_date, bool use_flush) {
} else {
FTNODE XMALLOC(parentnode);
BLOCKNUM parentblocknum = { 17 };
toku_initialize_empty_ftnode(parentnode, parentblocknum, 1, 1, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(parentnode, parentblocknum, 1, 1, FT_LAYOUT_VERSION, 0);
destroy_nonleaf_childinfo(BNC(parentnode, 0));
set_BNC(parentnode, 0, parent_bnc);
BP_STATE(parentnode, 0) = PT_AVAIL;
......@@ -758,7 +758,7 @@ flush_to_leaf_with_keyrange(FT_HANDLE t, bool make_leaf_up_to_date) {
FTNODE XMALLOC(child);
BLOCKNUM blocknum = { 42 };
toku_initialize_empty_ftnode(child, blocknum, 0, 8, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(child, blocknum, 0, 8, FT_LAYOUT_VERSION, 0);
for (i = 0; i < 8; ++i) {
destroy_basement_node(BLB(child, i));
set_BLB(child, i, child_blbs[i]);
......@@ -829,7 +829,7 @@ flush_to_leaf_with_keyrange(FT_HANDLE t, bool make_leaf_up_to_date) {
FTNODE XMALLOC(parentnode);
BLOCKNUM parentblocknum = { 17 };
toku_initialize_empty_ftnode(parentnode, parentblocknum, 1, 1, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(parentnode, parentblocknum, 1, 1, FT_LAYOUT_VERSION, 0);
destroy_nonleaf_childinfo(BNC(parentnode, 0));
set_BNC(parentnode, 0, parent_bnc);
BP_STATE(parentnode, 0) = PT_AVAIL;
......@@ -940,8 +940,8 @@ compare_apply_and_flush(FT_HANDLE t, bool make_leaf_up_to_date) {
FTNODE XMALLOC(child1), XMALLOC(child2);
BLOCKNUM blocknum = { 42 };
toku_initialize_empty_ftnode(child1, blocknum, 0, 8, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(child2, blocknum, 0, 8, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(child1, blocknum, 0, 8, FT_LAYOUT_VERSION, 0);
toku_initialize_empty_ftnode(child2, blocknum, 0, 8, FT_LAYOUT_VERSION, 0);
for (i = 0; i < 8; ++i) {
destroy_basement_node(BLB(child1, i));
set_BLB(child1, i, child1_blbs[i]);
......@@ -1016,7 +1016,7 @@ compare_apply_and_flush(FT_HANDLE t, bool make_leaf_up_to_date) {
FTNODE XMALLOC(parentnode);
BLOCKNUM parentblocknum = { 17 };
toku_initialize_empty_ftnode(parentnode, parentblocknum, 1, 1, FT_LAYOUT_VERSION, 128*1024, 0);
toku_initialize_empty_ftnode(parentnode, parentblocknum, 1, 1, FT_LAYOUT_VERSION, 0);
destroy_nonleaf_childinfo(BNC(parentnode, 0));
set_BNC(parentnode, 0, parent_bnc);
BP_STATE(parentnode, 0) = PT_AVAIL;
......
ft/tests/test3884.cc
View file @ c1c45c65
......@@ -81,7 +81,6 @@ insert_dummy_value(FTNODE node, int bn, long k)
static void
setup_ftnode_header(struct ftnode *node)
{
node->nodesize = nodesize;
node->flags = 0x11223344;
node->thisnodename.b = 20;
node->layout_version = FT_LAYOUT_VERSION;
......
src/tests/CMakeLists.txt
View file @ c1c45c65
......@@ -223,6 +223,7 @@ if(BUILD_TESTING)
test_bulk_fetch
test_compression_methods
test_cmp_descriptor
test_db_change_pagesize
test_db_change_xxx
test_cursor_delete_2119
test_db_descriptor
......
src/tests/test_db_change_pagesize.cc 0 → 100644
View file @ c1c45c65
/* -*- mode: C; c-basic-offset: 4; indent-tabs-mode: nil -*- */
// vim: expandtab:ts=8:sw=4:softtabstop=4:
#ident "Copyright (c) 2007 Tokutek Inc. All rights reserved."
#include "test.h"
#include <stdio.h>
#include <db.h>
int
test_main(int argc, char *const argv[]) {
parse_args(argc, argv);
DB_ENV *env;
DB *db;
int r;
r = system("rm -rf " ENVDIR);
CKERR(r);
r=toku_os_mkdir(ENVDIR, S_IRWXU+S_IRWXG+S_IRWXO); assert(r==0);
r=db_env_create(&env, 0); assert(r==0);
r=env->open(env, ENVDIR, DB_INIT_LOCK | DB_INIT_LOG | DB_INIT_MPOOL | DB_INIT_TXN | DB_CREATE | DB_PRIVATE | DB_INIT_LOG, S_IRWXU+S_IRWXG+S_IRWXO); assert(r==0);
r = db_create(&db, env, 0);
CKERR(r);
r = db->set_pagesize(db, 10000);
CKERR(r);
const char * const fname = "test.change_pagesize";
r = db->open(db, NULL, fname, "main", DB_BTREE, DB_CREATE, 0666);
CKERR(r);
DB_TXN* txn;
r = env->txn_begin(env, 0, &txn, 0);
CKERR(r);
for (uint64_t i = 0; i < 10000; i++) {
DBT key, val;
uint64_t k = i;
uint64_t v = i;
dbt_init(&key, &k, sizeof k);
dbt_init(&val, &v, sizeof v);
db->put(db, txn, &key, &val, DB_PRELOCKED_WRITE); // adding DB_PRELOCKED_WRITE just to make the test go faster
}
r = txn->commit(txn, 0);
CKERR(r);
// now we change the pagesize. In 6.1.0, this would eventually cause a crash
r = db->change_pagesize(db, 1024);
CKERR(r);
r = env->txn_begin(env, 0, &txn, 0);
CKERR(r);
for (uint64_t i = 0; i < 10000; i++) {
DBT key, val;
uint64_t k = 10000+i;
uint64_t v = i;
dbt_init(&key, &k, sizeof k);
dbt_init(&val, &v, sizeof v);
db->put(db, txn, &key, &val, DB_PRELOCKED_WRITE); // adding DB_PRELOCKED_WRITE just to make the test go faster
}
r = txn->commit(txn, 0);
CKERR(r);
r = db->close(db, 0);
CKERR(r);
r = env->close(env, 0);
assert(r == 0);
return 0;
}
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