Commit 3c09c1c3 authored by unknown's avatar unknown

ndb - bug#25711

  fix cpu peak in big clusters during unpack of config


ndb/src/common/util/ConfigValues.cpp:
  use bin-search instead of hash (as keys collide too much)
parent fed5cb6a
...@@ -34,7 +34,7 @@ static const char Magic[] = { 'N', 'D', 'B', 'C', 'O', 'N', 'F', 'V' }; ...@@ -34,7 +34,7 @@ static const char Magic[] = { 'N', 'D', 'B', 'C', 'O', 'N', 'F', 'V' };
//#define DEBUG_CV //#define DEBUG_CV
#ifdef DEBUG_CV #ifdef DEBUG_CV
#define DEBUG #define DEBUG if(getenv("CV_DEBUG"))
#else #else
#define DEBUG if(0) #define DEBUG if(0)
#endif #endif
...@@ -202,62 +202,60 @@ ConfigValues::Iterator::set(Uint32 key, const char * value){ ...@@ -202,62 +202,60 @@ ConfigValues::Iterator::set(Uint32 key, const char * value){
static static
bool bool
findKey(const Uint32 * values, Uint32 sz, Uint32 key, Uint32 * _pos){ findKey(const Uint32 * values, Uint32 sz, Uint32 key, Uint32 * _pos){
Uint32 pos = hash(key, sz); Uint32 lo = 0;
Uint32 count = 0; Uint32 hi = sz;
while((values[pos] & KP_MASK) != key && count < sz){ Uint32 pos = (hi + lo) >> 1;
pos = nextHash(key, sz, pos, ++count);
}
if((values[pos] & KP_MASK)== key){ DEBUG printf("findKey(H'%.8x %d)", key, sz);
*_pos = pos;
return true; if (sz == 0)
{
DEBUG ndbout_c(" -> false, 0");
* _pos = 0;
return false;
} }
return false;
}
static Uint32 val = 0;
Uint32 Uint32 oldpos = pos + 1;
hash(Uint32 key, Uint32 size){ while (pos != oldpos)
Uint32 tmp = (key >> 16) ^ (key & 0xFFFF); {
return (((tmp << 16) | tmp) % size) << 1; DEBUG printf(" [ %d %d %d ] ", lo, pos, hi);
} assert(pos < hi);
assert(pos >= lo);
val = values[2*pos] & KP_MASK;
if (key > val)
{
lo = pos;
}
else if (key < val)
{
hi = pos;
}
else
{
* _pos = 2*pos;
DEBUG ndbout_c(" -> true, %d", pos);
return true;
}
oldpos = pos;
pos = (hi + lo) >> 1;
}
static DEBUG printf(" pos: %d (key %.8x val: %.8x values[pos]: %x) key>val: %d ",
Uint32 pos, key, val, values[2*pos] & KP_MASK,
nextHash(Uint32 key, Uint32 size, Uint32 pos, Uint32 count){ key > val);
Uint32 p = (pos >> 1);
if((key % size) != 0)
p += key;
else
p += 1;
return (p % size) << 1;
}
static pos += (key > val) ? 1 : 0;
Uint32
directory(Uint32 sz){
const Uint32 _input = sz;
if((sz & 1) == 0)
sz ++;
bool prime = false; * _pos = 2*pos;
while(!prime){ DEBUG ndbout_c(" -> false, %d", pos);
prime = true; return false;
for(Uint32 n = 3; n*n <= sz; n += 2){
if((sz % n) == 0){
prime = false;
sz += 2;
break;
}
}
}
DEBUG printf("directory %d -> %d\n", _input, sz);
return sz;
} }
ConfigValuesFactory::ConfigValuesFactory(Uint32 keys, Uint32 data){ ConfigValuesFactory::ConfigValuesFactory(Uint32 keys, Uint32 data){
m_sectionCounter = (1 << KP_SECTION_SHIFT); m_sectionCounter = (1 << KP_SECTION_SHIFT);
m_freeKeys = directory(keys); m_freeKeys = keys;
m_freeData = (data + 7) & ~7; m_freeData = (data + 7) & ~7;
m_currentSection = 0; m_currentSection = 0;
m_cfg = create(m_freeKeys, m_freeData); m_cfg = create(m_freeKeys, m_freeData);
...@@ -316,11 +314,14 @@ ConfigValuesFactory::expand(Uint32 fk, Uint32 fs){ ...@@ -316,11 +314,14 @@ ConfigValuesFactory::expand(Uint32 fk, Uint32 fs){
return ; return ;
} }
DEBUG printf("[ fk fd ] : [ %d %d ]", m_freeKeys, m_freeData);
m_freeKeys = (m_freeKeys >= fk ? m_cfg->m_size : fk + m_cfg->m_size); m_freeKeys = (m_freeKeys >= fk ? m_cfg->m_size : fk + m_cfg->m_size);
m_freeData = (m_freeData >= fs ? m_cfg->m_dataSize : fs + m_cfg->m_dataSize); m_freeData = (m_freeData >= fs ? m_cfg->m_dataSize : fs + m_cfg->m_dataSize);
m_freeKeys = directory(m_freeKeys);
m_freeData = (m_freeData + 7) & ~7; m_freeData = (m_freeData + 7) & ~7;
DEBUG ndbout_c(" [ %d %d ]", m_freeKeys, m_freeData);
ConfigValues * m_tmp = m_cfg; ConfigValues * m_tmp = m_cfg;
m_cfg = create(m_freeKeys, m_freeData); m_cfg = create(m_freeKeys, m_freeData);
put(* m_tmp); put(* m_tmp);
...@@ -336,7 +337,6 @@ ConfigValuesFactory::shrink(){ ...@@ -336,7 +337,6 @@ ConfigValuesFactory::shrink(){
m_freeKeys = m_cfg->m_size - m_freeKeys; m_freeKeys = m_cfg->m_size - m_freeKeys;
m_freeData = m_cfg->m_dataSize - m_freeData; m_freeData = m_cfg->m_dataSize - m_freeData;
m_freeKeys = directory(m_freeKeys);
m_freeData = (m_freeData + 7) & ~7; m_freeData = (m_freeData + 7) & ~7;
ConfigValues * m_tmp = m_cfg; ConfigValues * m_tmp = m_cfg;
...@@ -415,52 +415,58 @@ ConfigValuesFactory::put(const ConfigValues::Entry & entry){ ...@@ -415,52 +415,58 @@ ConfigValuesFactory::put(const ConfigValues::Entry & entry){
} }
const Uint32 tmp = entry.m_key | m_currentSection; const Uint32 tmp = entry.m_key | m_currentSection;
const Uint32 sz = m_cfg->m_size; const Uint32 sz = m_cfg->m_size - m_freeKeys;
Uint32 pos = hash(tmp, sz);
Uint32 count = 0;
Uint32 val = m_cfg->m_values[pos];
while((val & KP_MASK) != tmp && val != CFV_KEY_FREE && count < sz){
pos = nextHash(tmp, sz, pos, ++count);
val = m_cfg->m_values[pos];
}
if((val & KP_MASK) == tmp){ Uint32 pos;
if (findKey(m_cfg->m_values, sz, tmp, &pos))
{
DEBUG ndbout_c("key %x already found at pos: %d", tmp, pos); DEBUG ndbout_c("key %x already found at pos: %d", tmp, pos);
return false; return false;
} }
if(count >= sz){ DEBUG {
pos = hash(tmp, sz); printf("H'before ");
count = 0; Uint32 prev = 0;
Uint32 val = m_cfg->m_values[pos]; for (Uint32 i = 0; i<sz; i++)
{
printf("key: %d, (key %% size): %d\n", entry.m_key, (entry.m_key % sz)); Uint32 val = m_cfg->m_values[2*i] & KP_MASK;
printf("pos: %d", pos); ndbout_c("%.8x", val);
while((val & KP_MASK) != tmp && val != CFV_KEY_FREE && count < sz){ assert(val >= prev);
pos = nextHash(tmp, sz, pos, ++count); prev = val;
val = m_cfg->m_values[pos];
printf(" %d", pos);
} }
printf("\n"); }
abort(); if (pos != 2*sz)
printf("Full\n"); {
return false; DEBUG ndbout_c("pos: %d sz: %d", pos, sz);
memmove(m_cfg->m_values + pos + 2, m_cfg->m_values + pos,
4 * (2*sz - pos));
} }
assert(pos < (sz << 1));
Uint32 key = tmp; Uint32 key = tmp;
key |= (entry.m_type << KP_TYPE_SHIFT); key |= (entry.m_type << KP_TYPE_SHIFT);
m_cfg->m_values[pos] = key; m_cfg->m_values[pos] = key;
DEBUG {
printf("H'after ");
Uint32 prev = 0;
for (Uint32 i = 0; i<=sz; i++)
{
Uint32 val = m_cfg->m_values[2*i] & KP_MASK;
ndbout_c("%.8x", val);
assert(val >= prev);
prev = val;
}
}
switch(entry.m_type){ switch(entry.m_type){
case ConfigValues::IntType: case ConfigValues::IntType:
case ConfigValues::SectionType: case ConfigValues::SectionType:
m_cfg->m_values[pos+1] = entry.m_int; m_cfg->m_values[pos+1] = entry.m_int;
m_freeKeys--; m_freeKeys--;
DEBUG printf("Putting at: %d(%d) (loop = %d) key: %d value: %d\n", DEBUG printf("Putting at: %d(%d) (loop = %d) key: %d value: %d\n",
pos, sz, count, pos, sz, 0,
(key >> KP_KEYVAL_SHIFT) & KP_KEYVAL_MASK, (key >> KP_KEYVAL_SHIFT) & KP_KEYVAL_MASK,
entry.m_int); entry.m_int);
return true; return true;
...@@ -472,7 +478,7 @@ ConfigValuesFactory::put(const ConfigValues::Entry & entry){ ...@@ -472,7 +478,7 @@ ConfigValuesFactory::put(const ConfigValues::Entry & entry){
m_freeKeys--; m_freeKeys--;
m_freeData -= sizeof(char *); m_freeData -= sizeof(char *);
DEBUG printf("Putting at: %d(%d) (loop = %d) key: %d value(%d): %s\n", DEBUG printf("Putting at: %d(%d) (loop = %d) key: %d value(%d): %s\n",
pos, sz, count, pos, sz, 0,
(key >> KP_KEYVAL_SHIFT) & KP_KEYVAL_MASK, (key >> KP_KEYVAL_SHIFT) & KP_KEYVAL_MASK,
index, index,
entry.m_string); entry.m_string);
...@@ -485,7 +491,7 @@ ConfigValuesFactory::put(const ConfigValues::Entry & entry){ ...@@ -485,7 +491,7 @@ ConfigValuesFactory::put(const ConfigValues::Entry & entry){
m_freeKeys--; m_freeKeys--;
m_freeData -= 8; m_freeData -= 8;
DEBUG printf("Putting at: %d(%d) (loop = %d) key: %d value64(%d): %lld\n", DEBUG printf("Putting at: %d(%d) (loop = %d) key: %d value64(%d): %lld\n",
pos, sz, count, pos, sz, 0,
(key >> KP_KEYVAL_SHIFT) & KP_KEYVAL_MASK, (key >> KP_KEYVAL_SHIFT) & KP_KEYVAL_MASK,
index, index,
entry.m_int64); entry.m_int64);
...@@ -648,7 +654,9 @@ ConfigValuesFactory::unpack(const void * _src, Uint32 len){ ...@@ -648,7 +654,9 @@ ConfigValuesFactory::unpack(const void * _src, Uint32 len){
} }
const char * src = (const char *)_src; const char * src = (const char *)_src;
const char * end = src + len - 4;
src += sizeof(Magic);
{ {
Uint32 len32 = (len >> 2); Uint32 len32 = (len >> 2);
const Uint32 * tmp = (const Uint32*)_src; const Uint32 * tmp = (const Uint32*)_src;
...@@ -663,9 +671,37 @@ ConfigValuesFactory::unpack(const void * _src, Uint32 len){ ...@@ -663,9 +671,37 @@ ConfigValuesFactory::unpack(const void * _src, Uint32 len){
} }
} }
const char * end = src + len - 4; const char * save = src;
src += sizeof(Magic);
{
Uint32 keys = 0;
Uint32 data = 0;
while(end - src > 4){
Uint32 tmp = ntohl(* (const Uint32 *)src); src += 4;
keys++;
switch(::getTypeOf(tmp)){
case ConfigValues::IntType:
case ConfigValues::SectionType:
src += 4;
break;
case ConfigValues::Int64Type:
src += 8;
data += 8;
break;
case ConfigValues::StringType:{
Uint32 s_len = ntohl(* (const Uint32 *)src);
src += 4 + mod4(s_len);
data += sizeof(char*);
break;
}
default:
break;
}
}
expand(keys, data);
}
src = save;
ConfigValues::Entry entry; ConfigValues::Entry entry;
while(end - src > 4){ while(end - src > 4){
Uint32 tmp = ntohl(* (const Uint32 *)src); src += 4; Uint32 tmp = ntohl(* (const Uint32 *)src); src += 4;
......
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