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mariadb/newbrt/brt-cachetable-wrappers.c
Leif Walsh d9639d75e0 [t:4741] finish removing brt_header reference from brtnode 
git-svn-id: file:///svn/toku/tokudb@43554 c7de825b-a66e-492c-adef-691d508d4ae1
2013-04-17 00:00:31 -04:00

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C
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/* -*- mode: C; c-basic-offset: 4 -*- */
#ident "$Id$"
#ident "Copyright (c) 2007-2011 Tokutek Inc. All rights reserved."
#ident "The technology is licensed by the Massachusetts Institute of Technology, Rutgers State University of New Jersey, and the Research Foundation of State University of New York at Stony Brook under United States of America Serial No. 11/760379 and to the patents and/or patent applications resulting from it."
#include <brt-cachetable-wrappers.h>
#include <brttypes.h>
#include <brt-flusher.h>
#include <brt-internal.h>
static void
brtnode_get_key_and_fullhash(
BLOCKNUM* cachekey,
u_int32_t* fullhash,
void* extra)
{
struct brt_header* h = extra;
BLOCKNUM name;
toku_allocate_blocknum(h->blocktable, &name, h);
*cachekey = name;
*fullhash = toku_cachetable_hash(h->cf, name);
}
void
cachetable_put_empty_node_with_dep_nodes(
struct brt_header* h,
u_int32_t num_dependent_nodes,
BRTNODE* dependent_nodes,
BLOCKNUM* name, //output
u_int32_t* fullhash, //output
BRTNODE* result)
{
BRTNODE XMALLOC(new_node);
CACHEFILE dependent_cf[num_dependent_nodes];
BLOCKNUM dependent_keys[num_dependent_nodes];
u_int32_t dependent_fullhash[num_dependent_nodes];
enum cachetable_dirty dependent_dirty_bits[num_dependent_nodes];
for (u_int32_t i = 0; i < num_dependent_nodes; i++) {
dependent_cf[i] = h->cf;
dependent_keys[i] = dependent_nodes[i]->thisnodename;
dependent_fullhash[i] = toku_cachetable_hash(h->cf, dependent_nodes[i]->thisnodename);
dependent_dirty_bits[i] = (enum cachetable_dirty) dependent_nodes[i]->dirty;
}
int r = toku_cachetable_put_with_dep_pairs(
h->cf,
brtnode_get_key_and_fullhash,
new_node,
make_pair_attr(sizeof(BRTNODE)),
get_write_callbacks_for_node(h),
h,
num_dependent_nodes,
dependent_cf,
dependent_keys,
dependent_fullhash,
dependent_dirty_bits,
name,
fullhash);
assert_zero(r);
*result = new_node;
}
void
create_new_brtnode_with_dep_nodes(
struct brt_header* h,
BRTNODE *result,
int height,
int n_children,
u_int32_t num_dependent_nodes,
BRTNODE* dependent_nodes)
{
u_int32_t fullhash = 0;
BLOCKNUM name;
cachetable_put_empty_node_with_dep_nodes(
h,
num_dependent_nodes,
dependent_nodes,
&name,
&fullhash,
result);
assert(h->nodesize > 0);
assert(h->basementnodesize > 0);
if (height == 0) {
assert(n_children > 0);
}
toku_initialize_empty_brtnode(
*result,
name,
height,
n_children,
h->layout_version,
h->nodesize,
h->flags);
assert((*result)->nodesize > 0);
(*result)->fullhash = fullhash;
}
void
toku_create_new_brtnode (
BRT t,
BRTNODE *result,
int height,
int n_children)
{
return create_new_brtnode_with_dep_nodes(
t->h,
result,
height,
n_children,
0,
NULL);
}
int
toku_pin_brtnode(
BRT brt,
BLOCKNUM blocknum,
u_int32_t fullhash,
UNLOCKERS unlockers,
ANCESTORS ancestors,
const PIVOT_BOUNDS bounds,
BRTNODE_FETCH_EXTRA bfe,
BOOL may_modify_node,
BOOL apply_ancestor_messages, // this BOOL is probably temporary, for #3972, once we know how range query estimates work, will revisit this
BRTNODE *node_p,
BOOL* msgs_applied)
{
void *node_v;
*msgs_applied = FALSE;
int r = toku_cachetable_get_and_pin_nonblocking(
brt->h->cf,
blocknum,
fullhash,
&node_v,
NULL,
get_write_callbacks_for_node(brt->h),
toku_brtnode_fetch_callback,
toku_brtnode_pf_req_callback,
toku_brtnode_pf_callback,
may_modify_node,
bfe, //read_extraargs
unlockers);
if (r==0) {
BRTNODE node = node_v;
if (apply_ancestor_messages) {
maybe_apply_ancestors_messages_to_node(brt, node, ancestors, bounds, msgs_applied);
}
*node_p = node;
// printf("%*sPin %ld\n", 8-node->height, "", blocknum.b);
} else {
assert(r==TOKUDB_TRY_AGAIN); // Any other error and we should bomb out ASAP.
// printf("%*sPin %ld try again\n", 8, "", blocknum.b);
}
return r;
}
void
toku_pin_brtnode_off_client_thread(
struct brt_header* h,
BLOCKNUM blocknum,
u_int32_t fullhash,
BRTNODE_FETCH_EXTRA bfe,
BOOL may_modify_node,
u_int32_t num_dependent_nodes,
BRTNODE* dependent_nodes,
BRTNODE *node_p)
{
void *node_v;
CACHEFILE dependent_cf[num_dependent_nodes];
BLOCKNUM dependent_keys[num_dependent_nodes];
u_int32_t dependent_fullhash[num_dependent_nodes];
enum cachetable_dirty dependent_dirty_bits[num_dependent_nodes];
for (u_int32_t i = 0; i < num_dependent_nodes; i++) {
dependent_cf[i] = h->cf;
dependent_keys[i] = dependent_nodes[i]->thisnodename;
dependent_fullhash[i] = toku_cachetable_hash(h->cf, dependent_nodes[i]->thisnodename);
dependent_dirty_bits[i] = (enum cachetable_dirty) dependent_nodes[i]->dirty;
}
int r = toku_cachetable_get_and_pin_with_dep_pairs(
h->cf,
blocknum,
fullhash,
&node_v,
NULL,
get_write_callbacks_for_node(h),
toku_brtnode_fetch_callback,
toku_brtnode_pf_req_callback,
toku_brtnode_pf_callback,
may_modify_node,
bfe,
num_dependent_nodes,
dependent_cf,
dependent_keys,
dependent_fullhash,
dependent_dirty_bits
);
assert(r==0);
BRTNODE node = node_v;
*node_p = node;
}
void
toku_unpin_brtnode_off_client_thread(struct brt_header* h, BRTNODE node)
{
int r = toku_cachetable_unpin(
h->cf,
node->thisnodename,
node->fullhash,
(enum cachetable_dirty) node->dirty,
make_brtnode_pair_attr(node)
);
assert(r==0);
}
void
toku_unpin_brtnode(struct brt_header *h, BRTNODE node)
{
// printf("%*sUnpin %ld\n", 8-node->height, "", node->thisnodename.b);
//VERIFY_NODE(brt,node);
toku_unpin_brtnode_off_client_thread(h, node);
}
void
toku_unpin_brtnode_read_only(BRT brt, BRTNODE node)
{
int r = toku_cachetable_unpin(
brt->h->cf,
node->thisnodename,
node->fullhash,
(enum cachetable_dirty) node->dirty,
make_invalid_pair_attr()
);
assert(r==0);
}
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