Commit 50da025a authored by Bradley C. Kuszmaul's avatar Bradley C. Kuszmaul Committed by Yoni Fogel

Start doing the surgery. Addresses #1195.

git-svn-id: file:///svn/toku/tokudb.1195@7118 c7de825b-a66e-492c-adef-691d508d4ae1
parent d158c66d
...@@ -121,29 +121,6 @@ void toku_brtnode_free (BRTNODE *nodep) { ...@@ -121,29 +121,6 @@ void toku_brtnode_free (BRTNODE *nodep) {
*nodep=0; *nodep=0;
} }
static long brtnode_memory_size(BRTNODE node) {
if (node->height>0) {
#if 0
return toku_serialize_brtnode_size(node);
#else
int n_children = node->u.n.n_children;
int fifo_sum=0;
int i;
for (i=0; i<n_children; i++) {
fifo_sum+=toku_fifo_memory_size(node->u.n.childinfos[i].buffer);
}
return sizeof(*node)
+(1+n_children)*(sizeof(node->u.n.childinfos[0]))
+(n_children)+(sizeof(node->u.n.childkeys[0]))
+node->u.n.totalchildkeylens
+fifo_sum;
#endif
} else {
return sizeof(*node)+toku_omt_memory_size(node->u.l.buffer)+toku_mempool_get_size(&node->u.l.buffer_mempool);
}
}
static int verify_in_mempool(OMTVALUE lev, u_int32_t UU(idx), void *vmp) { static int verify_in_mempool(OMTVALUE lev, u_int32_t UU(idx), void *vmp) {
LEAFENTRY le=lev; LEAFENTRY le=lev;
struct mempool *mp=vmp; struct mempool *mp=vmp;
...@@ -157,25 +134,6 @@ void toku_verify_all_in_mempool(BRTNODE node) { ...@@ -157,25 +134,6 @@ void toku_verify_all_in_mempool(BRTNODE node) {
} }
static void fixup_child_fingerprint(BRTNODE node, int childnum_of_node, BRTNODE child, BRT UU(brt), TOKULOGGER UU(logger)) {
u_int64_t leafentry_estimate = 0;
u_int32_t sum = child->local_fingerprint;
if (child->height>0) {
int i;
for (i=0; i<child->u.n.n_children; i++) {
sum += BNC_SUBTREE_FINGERPRINT(child,i);
leafentry_estimate += BNC_SUBTREE_LEAFENTRY_ESTIMATE(child,i);
}
} else {
leafentry_estimate = toku_omt_size(child->u.l.buffer);
}
// Don't try to get fancy about not modifying the fingerprint if it didn't change.
// We only call this function if we have reason to believe that the child's fingerprint did change.
BNC_SUBTREE_FINGERPRINT(node,childnum_of_node)=sum;
BNC_SUBTREE_LEAFENTRY_ESTIMATE(node,childnum_of_node)=leafentry_estimate;
node->dirty=1;
}
// If you pass in data==0 then it only compares the key, not the data (even if is a DUPSORT database) // If you pass in data==0 then it only compares the key, not the data (even if is a DUPSORT database)
static int brt_compare_pivot(BRT brt, DBT *key, DBT *data, bytevec ck) { static int brt_compare_pivot(BRT brt, DBT *key, DBT *data, bytevec ck) {
int cmp; int cmp;
...@@ -297,26 +255,6 @@ typedef struct kvpair { ...@@ -297,26 +255,6 @@ typedef struct kvpair {
unsigned int vallen; unsigned int vallen;
} *KVPAIR; } *KVPAIR;
static int
allocate_diskblocknumber (BLOCKNUM *res, BRT brt, TOKULOGGER logger __attribute__((__unused__))) {
assert(brt->h->free_blocks.b == -1); // no blocks in the free list
BLOCKNUM result = brt->h->unused_blocks;
brt->h->unused_blocks.b++;
brt->h->dirty = 1;
*res = result;
return 0;
}
static u_int32_t
mp_pool_size_for_nodesize (u_int32_t nodesize) {
#if 1
return nodesize+nodesize/4;
#else
return nodesize;
#endif
}
// Simple LCG random number generator. Not high quality, but good enough. // Simple LCG random number generator. Not high quality, but good enough.
static int r_seeded=0; static int r_seeded=0;
static u_int32_t rstate=1; static u_int32_t rstate=1;
...@@ -334,42 +272,7 @@ static inline u_int32_t myrandom (void) { ...@@ -334,42 +272,7 @@ static inline u_int32_t myrandom (void) {
return rstate; return rstate;
} }
static void initialize_brtnode (BRT t, BRTNODE n, BLOCKNUM nodename, int height) {
n->tag = TYP_BRTNODE;
n->nodesize = t->h->nodesize;
n->flags = t->flags;
n->thisnodename = nodename;
n->disk_lsn.lsn = 0; // a new one can always be 0.
n->log_lsn = n->disk_lsn;
n->layout_version = BRT_LAYOUT_VERSION;
n->height = height;
n->rand4fingerprint = random();
n->local_fingerprint = 0;
n->dirty = 1;
assert(height>=0);
if (height>0) {
n->u.n.n_children = 0;
n->u.n.totalchildkeylens = 0;
n->u.n.n_bytes_in_buffers = 0;
n->u.n.childinfos=0;
n->u.n.childkeys=0;
} else {
int r = toku_omt_create(&n->u.l.buffer);
assert(r==0);
{
u_int32_t mpsize = mp_pool_size_for_nodesize(n->nodesize);
void *mp = toku_malloc(mpsize);
assert(mp);
toku_mempool_init(&n->u.l.buffer_mempool, mp, mpsize);
}
static int rcount=0;
//printf("%s:%d n PMA= %p (rcount=%d)\n", __FILE__, __LINE__, n->u.l.buffer, rcount);
rcount++;
n->u.l.n_bytes_in_buffer = 0;
n->u.l.seqinsert = 0;
}
}
// logs the memory allocation, but not the creation of the new node // logs the memory allocation, but not the creation of the new node
int toku_create_new_brtnode (BRT t, BRTNODE *result, int height, TOKULOGGER logger) { int toku_create_new_brtnode (BRT t, BRTNODE *result, int height, TOKULOGGER logger) {
...@@ -3090,75 +2993,6 @@ CACHEKEY* toku_calculate_root_offset_pointer (BRT brt, u_int32_t *roothash) { ...@@ -3090,75 +2993,6 @@ CACHEKEY* toku_calculate_root_offset_pointer (BRT brt, u_int32_t *roothash) {
abort(); return 0; // make certain compilers happy abort(); return 0; // make certain compilers happy
} }
static int brt_init_new_root(BRT brt, BRTNODE nodea, BRTNODE nodeb, DBT splitk, CACHEKEY *rootp, TOKULOGGER logger, BRTNODE *newrootp) {
TAGMALLOC(BRTNODE, newroot);
int r;
int new_height = nodea->height+1;
int new_nodesize = brt->h->nodesize;
BLOCKNUM newroot_diskoff;
r = allocate_diskblocknumber(&newroot_diskoff, brt, logger);
assert(r==0);
assert(newroot);
newroot->ever_been_written = 0;
if (brt->database_name==0) {
toku_log_changeunnamedroot(logger, (LSN*)0, 0, toku_cachefile_filenum(brt->cf), *rootp, newroot_diskoff);
} else {
BYTESTRING bs;
bs.len = 1+strlen(brt->database_name);
bs.data = brt->database_name;
toku_log_changenamedroot(logger, (LSN*)0, 0, toku_cachefile_filenum(brt->cf), bs, *rootp, newroot_diskoff);
}
*rootp=newroot_diskoff;
brt->h->dirty=1;
initialize_brtnode (brt, newroot, newroot_diskoff, new_height);
//printf("new_root %lld %d %lld %lld\n", newroot_diskoff, newroot->height, nodea->thisnodename, nodeb->thisnodename);
newroot->u.n.n_children=2;
MALLOC_N(3, newroot->u.n.childinfos);
MALLOC_N(2, newroot->u.n.childkeys);
//printf("%s:%d Splitkey=%p %s\n", __FILE__, __LINE__, splitkey, splitkey);
newroot->u.n.childkeys[0] = splitk.data;
newroot->u.n.totalchildkeylens=splitk.size;
BNC_BLOCKNUM(newroot,0)=nodea->thisnodename;
BNC_BLOCKNUM(newroot,1)=nodeb->thisnodename;
BNC_HAVE_FULLHASH(newroot, 0) = FALSE;
BNC_HAVE_FULLHASH(newroot, 1) = FALSE;
r=toku_fifo_create(&BNC_BUFFER(newroot,0)); if (r!=0) return r;
r=toku_fifo_create(&BNC_BUFFER(newroot,1)); if (r!=0) return r;
BNC_NBYTESINBUF(newroot, 0)=0;
BNC_NBYTESINBUF(newroot, 1)=0;
BNC_SUBTREE_FINGERPRINT(newroot, 0)=0;
BNC_SUBTREE_FINGERPRINT(newroot, 1)=0;
BNC_SUBTREE_LEAFENTRY_ESTIMATE(newroot, 0)=0;
BNC_SUBTREE_LEAFENTRY_ESTIMATE(newroot, 1)=0;
//verify_local_fingerprint_nonleaf(nodea);
//verify_local_fingerprint_nonleaf(nodeb);
r=toku_log_newbrtnode(logger, (LSN*)0, 0, toku_cachefile_filenum(brt->cf), newroot_diskoff, new_height, new_nodesize, (unsigned char)((brt->flags&TOKU_DB_DUPSORT)!=0), newroot->rand4fingerprint);
if (r!=0) return r;
r=toku_log_addchild(logger, (LSN*)0, 0, toku_cachefile_filenum(brt->cf), newroot_diskoff, 0, nodea->thisnodename, 0);
if (r!=0) return r;
r=toku_log_addchild(logger, (LSN*)0, 0, toku_cachefile_filenum(brt->cf), newroot_diskoff, 1, nodeb->thisnodename, 0);
if (r!=0) return r;
fixup_child_fingerprint(newroot, 0, nodea, brt, logger);
fixup_child_fingerprint(newroot, 1, nodeb, brt, logger);
{
BYTESTRING bs = { .len = kv_pair_keylen(newroot->u.n.childkeys[0]),
.data = kv_pair_key(newroot->u.n.childkeys[0]) };
r=toku_log_setpivot(logger, &newroot->log_lsn, 0, toku_cachefile_filenum(brt->cf), newroot_diskoff, 0, bs);
if (r!=0) return r;
}
r = toku_unpin_brtnode(brt, nodea);
if (r!=0) return r;
r = toku_unpin_brtnode(brt, nodeb);
if (r!=0) return r;
//printf("%s:%d put %lld\n", __FILE__, __LINE__, newroot_diskoff);
u_int32_t fullhash = toku_cachetable_hash(brt->cf, newroot_diskoff);
newroot->fullhash = fullhash;
toku_cachetable_put(brt->cf, newroot_diskoff, fullhash, newroot, brtnode_memory_size(newroot),
toku_brtnode_flush_callback, toku_brtnode_fetch_callback, brt->h);
*newrootp = newroot;
return 0;
}
int toku_cachefile_root_put_cmd (CACHEFILE cf, BRT_CMD cmd, TOKULOGGER logger) { int toku_cachefile_root_put_cmd (CACHEFILE cf, BRT_CMD cmd, TOKULOGGER logger) {
int r; int r;
struct brt_header *h = toku_cachefile_get_userdata(cf); struct brt_header *h = toku_cachefile_get_userdata(cf);
......
This diff is collapsed.
...@@ -4,7 +4,7 @@ ...@@ -4,7 +4,7 @@
#include "includes.h" #include "includes.h"
// execute the cachetable callbacks using a writer thread 0->no 1->yes // execute the cachetable callbacks using a writer thread 0->no 1->yes
#define DO_WRITER_THREAD 0 #define DO_WRITER_THREAD 1
#if DO_WRITER_THREAD #if DO_WRITER_THREAD
static void *cachetable_writer(void *); static void *cachetable_writer(void *);
#endif #endif
......
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