Commit 14963037 authored by stewart@willster.(none)'s avatar stewart@willster.(none)

Merge willster.(none):/home/stewart/Documents/MySQL/5.0/main

into  willster.(none):/home/stewart/Documents/MySQL/5.1/main
parents 922058ae bdc7a14b
...@@ -112,6 +112,7 @@ install-data-local: ...@@ -112,6 +112,7 @@ install-data-local:
uninstall-local: uninstall-local:
@RM@ -f -r $(DESTDIR)$(testdir) @RM@ -f -r $(DESTDIR)$(testdir)
SUFFIXES = .sh SUFFIXES = .sh
.sh: .sh:
......
...@@ -2,7 +2,7 @@ Next QMGR 1 ...@@ -2,7 +2,7 @@ Next QMGR 1
Next NDBCNTR 1000 Next NDBCNTR 1000
Next NDBFS 2000 Next NDBFS 2000
Next DBACC 3002 Next DBACC 3002
Next DBTUP 4013 Next DBTUP 4014
Next DBLQH 5043 Next DBLQH 5043
Next DBDICT 6007 Next DBDICT 6007
Next DBDIH 7177 Next DBDIH 7177
...@@ -437,6 +437,8 @@ Drop Table/Index: ...@@ -437,6 +437,8 @@ Drop Table/Index:
8036: Fail next index drop in TC 8036: Fail next index drop in TC
6006: Crash participant in create index 6006: Crash participant in create index
4013: verify TUP tab descr before and after next DROP TABLE
System Restart: System Restart:
--------------- ---------------
......
...@@ -2373,15 +2373,18 @@ private: ...@@ -2373,15 +2373,18 @@ private:
// Public methods // Public methods
Uint32 getTabDescrOffsets(const Tablerec* regTabPtr, Uint32* offset); Uint32 getTabDescrOffsets(const Tablerec* regTabPtr, Uint32* offset);
Uint32 allocTabDescr(const Tablerec* regTabPtr, Uint32* offset); Uint32 allocTabDescr(const Tablerec* regTabPtr, Uint32* offset);
void freeTabDescr(Uint32 retRef, Uint32 retNo); void freeTabDescr(Uint32 retRef, Uint32 retNo, bool normal = true);
Uint32 getTabDescrWord(Uint32 index); Uint32 getTabDescrWord(Uint32 index);
void setTabDescrWord(Uint32 index, Uint32 word); void setTabDescrWord(Uint32 index, Uint32 word);
// Private methods // Private methods
Uint32 sizeOfReadFunction(); Uint32 sizeOfReadFunction();
void removeTdArea(Uint32 tabDesRef, Uint32 list); void removeTdArea(Uint32 tabDesRef, Uint32 list);
void insertTdArea(Uint32 sizeOfChunk, Uint32 tabDesRef, Uint32 list); void insertTdArea(Uint32 tabDesRef, Uint32 list);
Uint32 itdaMergeTabDescr(Uint32 retRef, Uint32 retNo); void itdaMergeTabDescr(Uint32& retRef, Uint32& retNo, bool normal);
#ifdef VM_TRACE
void verifytabdes();
#endif
void seizeOpRec(OperationrecPtr& regOperPtr); void seizeOpRec(OperationrecPtr& regOperPtr);
void seizeFragrecord(FragrecordPtr& regFragPtr); void seizeFragrecord(FragrecordPtr& regFragPtr);
......
...@@ -857,6 +857,11 @@ void ...@@ -857,6 +857,11 @@ void
Dbtup::execDROP_TAB_REQ(Signal* signal) Dbtup::execDROP_TAB_REQ(Signal* signal)
{ {
ljamEntry(); ljamEntry();
if (ERROR_INSERTED(4013)) {
#ifdef VM_TRACE
verifytabdes();
#endif
}
DropTabReq* req= (DropTabReq*)signal->getDataPtr(); DropTabReq* req= (DropTabReq*)signal->getDataPtr();
TablerecPtr tabPtr; TablerecPtr tabPtr;
...@@ -1109,7 +1114,6 @@ Dbtup::drop_fragment_free_var_pages(Signal* signal) ...@@ -1109,7 +1114,6 @@ Dbtup::drop_fragment_free_var_pages(Signal* signal)
} }
releaseFragPages(fragPtr.p); releaseFragPages(fragPtr.p);
Uint32 i; Uint32 i;
for(i= 0; i<MAX_FRAG_PER_NODE; i++) for(i= 0; i<MAX_FRAG_PER_NODE; i++)
if(tabPtr.p->fragrec[i] == fragPtr.i) if(tabPtr.p->fragrec[i] == fragPtr.i)
...@@ -1152,7 +1156,6 @@ Dbtup::start_restore_lcp(Uint32 tableId, Uint32 fragId) ...@@ -1152,7 +1156,6 @@ Dbtup::start_restore_lcp(Uint32 tableId, Uint32 fragId)
tabPtr.p->m_attributes[DD].m_no_of_fixsize = 0; tabPtr.p->m_attributes[DD].m_no_of_fixsize = 0;
tabPtr.p->m_attributes[DD].m_no_of_varsize = 0; tabPtr.p->m_attributes[DD].m_no_of_varsize = 0;
} }
void void
Dbtup::complete_restore_lcp(Uint32 tableId, Uint32 fragId) Dbtup::complete_restore_lcp(Uint32 tableId, Uint32 fragId)
{ {
......
...@@ -24,13 +24,15 @@ ...@@ -24,13 +24,15 @@
#define ljam() { jamLine(22000 + __LINE__); } #define ljam() { jamLine(22000 + __LINE__); }
#define ljamEntry() { jamEntryLine(22000 + __LINE__); } #define ljamEntry() { jamEntryLine(22000 + __LINE__); }
/* **************************************************************** */ /*
/* *********** TABLE DESCRIPTOR MEMORY MANAGER ******************** */ * TABLE DESCRIPTOR MEMORY MANAGER
/* **************************************************************** */ *
/* This module is used to allocate and deallocate table descriptor */ * Each table has a descriptor which is a contiguous array of words.
/* memory attached to fragments (could be allocated per table */ * The descriptor is allocated from a global array using a buddy
/* instead. Performs its task by a buddy algorithm. */ * algorithm. Free lists exist for each power of 2 words. Freeing
/* **************************************************************** */ * a piece first merges with free right and left neighbours and then
* divides itself up into free list chunks.
*/
Uint32 Uint32
Dbtup::getTabDescrOffsets(const Tablerec* regTabPtr, Uint32* offset) Dbtup::getTabDescrOffsets(const Tablerec* regTabPtr, Uint32* offset)
...@@ -59,7 +61,7 @@ Uint32 Dbtup::allocTabDescr(const Tablerec* regTabPtr, Uint32* offset) ...@@ -59,7 +61,7 @@ Uint32 Dbtup::allocTabDescr(const Tablerec* regTabPtr, Uint32* offset)
Uint32 reference = RNIL; Uint32 reference = RNIL;
Uint32 allocSize = getTabDescrOffsets(regTabPtr, offset); Uint32 allocSize = getTabDescrOffsets(regTabPtr, offset);
/* ---------------------------------------------------------------- */ /* ---------------------------------------------------------------- */
/* ALWAYS ALLOCATE A MULTIPLE OF 16 BYTES */ /* ALWAYS ALLOCATE A MULTIPLE OF 16 WORDS */
/* ---------------------------------------------------------------- */ /* ---------------------------------------------------------------- */
allocSize = (((allocSize - 1) >> 4) + 1) << 4; allocSize = (((allocSize - 1) >> 4) + 1) << 4;
Uint32 list = nextHigherTwoLog(allocSize - 1); /* CALCULATE WHICH LIST IT BELONGS TO */ Uint32 list = nextHigherTwoLog(allocSize - 1); /* CALCULATE WHICH LIST IT BELONGS TO */
...@@ -72,9 +74,9 @@ Uint32 Dbtup::allocTabDescr(const Tablerec* regTabPtr, Uint32* offset) ...@@ -72,9 +74,9 @@ Uint32 Dbtup::allocTabDescr(const Tablerec* regTabPtr, Uint32* offset)
Uint32 retNo = (1 << i) - allocSize; /* CALCULATE THE DIFFERENCE */ Uint32 retNo = (1 << i) - allocSize; /* CALCULATE THE DIFFERENCE */
if (retNo >= ZTD_FREE_SIZE) { if (retNo >= ZTD_FREE_SIZE) {
ljam(); ljam();
Uint32 retRef = reference + allocSize; /* SET THE RETURN POINTER */ // return unused words, of course without attempting left merge
retNo = itdaMergeTabDescr(retRef, retNo); /* MERGE WITH POSSIBLE RIGHT NEIGHBOURS */ Uint32 retRef = reference + allocSize;
freeTabDescr(retRef, retNo); /* RETURN UNUSED TD SPACE TO THE TD AREA */ freeTabDescr(retRef, retNo, false);
} else { } else {
ljam(); ljam();
allocSize = 1 << i; allocSize = 1 << i;
...@@ -100,17 +102,19 @@ Uint32 Dbtup::allocTabDescr(const Tablerec* regTabPtr, Uint32* offset) ...@@ -100,17 +102,19 @@ Uint32 Dbtup::allocTabDescr(const Tablerec* regTabPtr, Uint32* offset)
}//if }//if
}//Dbtup::allocTabDescr() }//Dbtup::allocTabDescr()
void Dbtup::freeTabDescr(Uint32 retRef, Uint32 retNo) void Dbtup::freeTabDescr(Uint32 retRef, Uint32 retNo, bool normal)
{ {
itdaMergeTabDescr(retRef, retNo, normal); /* MERGE WITH POSSIBLE NEIGHBOURS */
while (retNo >= ZTD_FREE_SIZE) { while (retNo >= ZTD_FREE_SIZE) {
ljam(); ljam();
Uint32 list = nextHigherTwoLog(retNo); Uint32 list = nextHigherTwoLog(retNo);
list--; /* RETURN TO NEXT LOWER LIST */ list--; /* RETURN TO NEXT LOWER LIST */
Uint32 sizeOfChunk = 1 << list; Uint32 sizeOfChunk = 1 << list;
insertTdArea(sizeOfChunk, retRef, list); insertTdArea(retRef, list);
retRef += sizeOfChunk; retRef += sizeOfChunk;
retNo -= sizeOfChunk; retNo -= sizeOfChunk;
}//while }//while
ndbassert(retNo == 0);
}//Dbtup::freeTabDescr() }//Dbtup::freeTabDescr()
Uint32 Uint32
...@@ -127,7 +131,7 @@ Dbtup::setTabDescrWord(Uint32 index, Uint32 word) ...@@ -127,7 +131,7 @@ Dbtup::setTabDescrWord(Uint32 index, Uint32 word)
tableDescriptor[index].tabDescr = word; tableDescriptor[index].tabDescr = word;
}//Dbtup::setTabDescrWord() }//Dbtup::setTabDescrWord()
void Dbtup::insertTdArea(Uint32 sizeOfChunk, Uint32 tabDesRef, Uint32 list) void Dbtup::insertTdArea(Uint32 tabDesRef, Uint32 list)
{ {
ndbrequire(list < 16); ndbrequire(list < 16);
setTabDescrWord(tabDesRef + ZTD_FL_HEADER, ZTD_TYPE_FREE); setTabDescrWord(tabDesRef + ZTD_FL_HEADER, ZTD_TYPE_FREE);
...@@ -144,19 +148,14 @@ void Dbtup::insertTdArea(Uint32 sizeOfChunk, Uint32 tabDesRef, Uint32 list) ...@@ -144,19 +148,14 @@ void Dbtup::insertTdArea(Uint32 sizeOfChunk, Uint32 tabDesRef, Uint32 list)
setTabDescrWord((tabDesRef + (1 << list)) - ZTD_TR_SIZE, 1 << list); setTabDescrWord((tabDesRef + (1 << list)) - ZTD_TR_SIZE, 1 << list);
}//Dbtup::insertTdArea() }//Dbtup::insertTdArea()
/* ---------------------------------------------------------------- */ /*
/* ----------------------- MERGE_TAB_DESCR ------------------------ */ * Merge to-be-removed chunk (which need not be initialized with header
/* ---------------------------------------------------------------- */ * and trailer) with left and right buddies. The start point retRef
/* INPUT: TAB_DESCR_PTR POINTING AT THE CURRENT CHUNK */ * moves to left and the size retNo increases to match the new chunk.
/* */ */
/* SHORTNAME: MTD */ void Dbtup::itdaMergeTabDescr(Uint32& retRef, Uint32& retNo, bool normal)
/* -----------------------------------------------------------------*/
Uint32 Dbtup::itdaMergeTabDescr(Uint32 retRef, Uint32 retNo)
{ {
/* THE SIZE OF THE PART TO MERGE MUST BE OF THE SAME SIZE AS THE INSERTED PART */ // merge right
/* THIS IS TRUE EITHER IF ONE PART HAS THE SAME SIZE OR THE SUM OF BOTH PARTS */
/* TOGETHER HAS THE SAME SIZE AS THE PART TO BE INSERTED */
/* FIND THE SIZES OF THE PARTS TO THE RIGHT OF THE PART TO BE REINSERTED */
while ((retRef + retNo) < cnoOfTabDescrRec) { while ((retRef + retNo) < cnoOfTabDescrRec) {
ljam(); ljam();
Uint32 tabDesRef = retRef + retNo; Uint32 tabDesRef = retRef + retNo;
...@@ -170,11 +169,28 @@ Uint32 Dbtup::itdaMergeTabDescr(Uint32 retRef, Uint32 retNo) ...@@ -170,11 +169,28 @@ Uint32 Dbtup::itdaMergeTabDescr(Uint32 retRef, Uint32 retNo)
removeTdArea(tabDesRef, list); removeTdArea(tabDesRef, list);
} else { } else {
ljam(); ljam();
return retNo; break;
}//if }
}//while }
ndbrequire((retRef + retNo) == cnoOfTabDescrRec); // merge left
return retNo; const bool mergeLeft = normal;
while (mergeLeft && retRef > 0) {
ljam();
Uint32 trailerWord = getTabDescrWord(retRef - ZTD_TR_TYPE);
if (trailerWord == ZTD_TYPE_FREE) {
ljam();
Uint32 sizeOfMergedPart = getTabDescrWord(retRef - ZTD_TR_SIZE);
ndbrequire(retRef >= sizeOfMergedPart);
retRef -= sizeOfMergedPart;
retNo += sizeOfMergedPart;
Uint32 list = nextHigherTwoLog(sizeOfMergedPart - 1);
removeTdArea(retRef, list);
} else {
ljam();
break;
}
}
ndbrequire((retRef + retNo) <= cnoOfTabDescrRec);
}//Dbtup::itdaMergeTabDescr() }//Dbtup::itdaMergeTabDescr()
/* ---------------------------------------------------------------- */ /* ---------------------------------------------------------------- */
...@@ -210,3 +226,94 @@ void Dbtup::removeTdArea(Uint32 tabDesRef, Uint32 list) ...@@ -210,3 +226,94 @@ void Dbtup::removeTdArea(Uint32 tabDesRef, Uint32 list)
setTabDescrWord(tabDescrPrevPtr + ZTD_FL_NEXT, tabDescrNextPtr); setTabDescrWord(tabDescrPrevPtr + ZTD_FL_NEXT, tabDescrNextPtr);
}//if }//if
}//Dbtup::removeTdArea() }//Dbtup::removeTdArea()
#ifdef VM_TRACE
void
Dbtup::verifytabdes()
{
struct WordType {
short fl; // free list 0-15
short ti; // table id
WordType() : fl(-1), ti(-1) {}
};
WordType* wt = new WordType [cnoOfTabDescrRec];
uint free_frags = 0;
// free lists
{
for (uint i = 0; i < 16; i++) {
Uint32 desc2 = RNIL;
Uint32 desc = cfreeTdList[i];
while (desc != RNIL) {
const Uint32 size = (1 << i);
ndbrequire(size >= ZTD_FREE_SIZE);
ndbrequire(desc + size <= cnoOfTabDescrRec);
{ Uint32 index = desc + ZTD_FL_HEADER;
ndbrequire(tableDescriptor[index].tabDescr == ZTD_TYPE_FREE);
}
{ Uint32 index = desc + ZTD_FL_SIZE;
ndbrequire(tableDescriptor[index].tabDescr == size);
}
{ Uint32 index = desc + size - ZTD_TR_TYPE;
ndbrequire(tableDescriptor[index].tabDescr == ZTD_TYPE_FREE);
}
{ Uint32 index = desc + size - ZTD_TR_SIZE;
ndbrequire(tableDescriptor[index].tabDescr == size);
}
{ Uint32 index = desc + ZTD_FL_PREV;
ndbrequire(tableDescriptor[index].tabDescr == desc2);
}
for (uint j = 0; j < size; j++) {
ndbrequire(wt[desc + j].fl == -1);
wt[desc + j].fl = i;
}
desc2 = desc;
desc = tableDescriptor[desc + ZTD_FL_NEXT].tabDescr;
free_frags++;
}
}
}
// tables
{
for (uint i = 0; i < cnoOfTablerec; i++) {
TablerecPtr ptr;
ptr.i = i;
ptrAss(ptr, tablerec);
if (ptr.p->tableStatus == DEFINED) {
Uint32 offset[10];
const Uint32 alloc = getTabDescrOffsets(ptr.p, offset);
const Uint32 desc = ptr.p->readKeyArray - offset[3];
Uint32 size = alloc;
if (size % ZTD_FREE_SIZE != 0)
size += ZTD_FREE_SIZE - size % ZTD_FREE_SIZE;
ndbrequire(desc + size <= cnoOfTabDescrRec);
{ Uint32 index = desc + ZTD_FL_HEADER;
ndbrequire(tableDescriptor[index].tabDescr == ZTD_TYPE_NORMAL);
}
{ Uint32 index = desc + ZTD_FL_SIZE;
ndbrequire(tableDescriptor[index].tabDescr == size);
}
{ Uint32 index = desc + size - ZTD_TR_TYPE;
ndbrequire(tableDescriptor[index].tabDescr == ZTD_TYPE_NORMAL);
}
{ Uint32 index = desc + size - ZTD_TR_SIZE;
ndbrequire(tableDescriptor[index].tabDescr == size);
}
for (uint j = 0; j < size; j++) {
ndbrequire(wt[desc + j].ti == -1);
wt[desc + j].ti = i;
}
}
}
}
// all words
{
for (uint i = 0; i < cnoOfTabDescrRec; i++) {
bool is_fl = wt[i].fl != -1;
bool is_ti = wt[i].ti != -1;
ndbrequire(is_fl != is_ti);
}
}
delete [] wt;
ndbout << "verifytabdes: frags=" << free_frags << endl;
}
#endif
...@@ -233,6 +233,101 @@ int runCreateAndDrop(NDBT_Context* ctx, NDBT_Step* step){ ...@@ -233,6 +233,101 @@ int runCreateAndDrop(NDBT_Context* ctx, NDBT_Step* step){
return NDBT_OK; return NDBT_OK;
} }
int runCreateAndDropAtRandom(NDBT_Context* ctx, NDBT_Step* step)
{
myRandom48Init(NdbTick_CurrentMillisecond());
Ndb* pNdb = GETNDB(step);
NdbDictionary::Dictionary* pDic = pNdb->getDictionary();
int loops = ctx->getNumLoops();
int numTables = NDBT_Tables::getNumTables();
bool* tabList = new bool [ numTables ];
int tabCount;
{
for (int num = 0; num < numTables; num++) {
(void)pDic->dropTable(NDBT_Tables::getTable(num)->getName());
tabList[num] = false;
}
tabCount = 0;
}
NdbRestarter restarter;
int result = NDBT_OK;
int bias = 1; // 0-less 1-more
int i = 0;
while (i < loops) {
g_info << "loop " << i << " tabs " << tabCount << "/" << numTables << endl;
int num = myRandom48(numTables);
const NdbDictionary::Table* pTab = NDBT_Tables::getTable(num);
char tabName[200];
strcpy(tabName, pTab->getName());
if (tabList[num] == false) {
if (bias == 0 && myRandom48(100) < 80)
continue;
g_info << tabName << ": create" << endl;
if (pDic->createTable(*pTab) != 0) {
const NdbError err = pDic->getNdbError();
g_err << tabName << ": create failed: " << err << endl;
result = NDBT_FAILED;
break;
}
const NdbDictionary::Table* pTab2 = pDic->getTable(tabName);
if (pTab2 == NULL) {
const NdbError err = pDic->getNdbError();
g_err << tabName << ": verify create: " << err << endl;
result = NDBT_FAILED;
break;
}
tabList[num] = true;
assert(tabCount < numTables);
tabCount++;
if (tabCount == numTables)
bias = 0;
}
else {
if (bias == 1 && myRandom48(100) < 80)
continue;
g_info << tabName << ": drop" << endl;
if (restarter.insertErrorInAllNodes(4013) != 0) {
g_err << "error insert failed" << endl;
result = NDBT_FAILED;
break;
}
if (pDic->dropTable(tabName) != 0) {
const NdbError err = pDic->getNdbError();
g_err << tabName << ": drop failed: " << err << endl;
result = NDBT_FAILED;
break;
}
const NdbDictionary::Table* pTab2 = pDic->getTable(tabName);
if (pTab2 != NULL) {
g_err << tabName << ": verify drop: table exists" << endl;
result = NDBT_FAILED;
break;
}
if (pDic->getNdbError().code != 709 &&
pDic->getNdbError().code != 723) {
const NdbError err = pDic->getNdbError();
g_err << tabName << ": verify drop: " << err << endl;
result = NDBT_FAILED;
break;
}
tabList[num] = false;
assert(tabCount > 0);
tabCount--;
if (tabCount == 0)
bias = 1;
}
i++;
}
delete [] tabList;
return result;
}
int runCreateAndDropWithData(NDBT_Context* ctx, NDBT_Step* step){ int runCreateAndDropWithData(NDBT_Context* ctx, NDBT_Step* step){
Ndb* pNdb = GETNDB(step); Ndb* pNdb = GETNDB(step);
int loops = ctx->getNumLoops(); int loops = ctx->getNumLoops();
...@@ -1945,6 +2040,12 @@ TESTCASE("CreateAndDrop", ...@@ -1945,6 +2040,12 @@ TESTCASE("CreateAndDrop",
"Try to create and drop the table loop number of times\n"){ "Try to create and drop the table loop number of times\n"){
INITIALIZER(runCreateAndDrop); INITIALIZER(runCreateAndDrop);
} }
TESTCASE("CreateAndDropAtRandom",
"Try to create and drop table at random loop number of times\n"
"Uses all available tables\n"
"Uses error insert 4013 to make TUP verify table descriptor"){
INITIALIZER(runCreateAndDropAtRandom);
}
TESTCASE("CreateAndDropWithData", TESTCASE("CreateAndDropWithData",
"Try to create and drop the table when it's filled with data\n" "Try to create and drop the table when it's filled with data\n"
"do this loop number of times\n"){ "do this loop number of times\n"){
......
...@@ -495,6 +495,10 @@ max-time: 1500 ...@@ -495,6 +495,10 @@ max-time: 1500
cmd: testDict cmd: testDict
args: -n CreateAndDrop args: -n CreateAndDrop
max-time: 1500
cmd: testDict
args: -n CreateAndDropAtRandom -l 200 T1
max-time: 1500 max-time: 1500
cmd: testDict cmd: testDict
args: -n CreateAndDropWithData args: -n CreateAndDropWithData
......
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