Commit 76bdccd0 authored by pekka@mysql.com's avatar pekka@mysql.com

Merge pnousiainen@bk-internal.mysql.com:/home/bk/mysql-5.0

into  mysql.com:/space/pekka/ndb/version/my50
parents cb25f0f0 a4fc69db
......@@ -445,6 +445,7 @@ Dbtup::commitRecord(Signal* signal,
befOpPtr.p->changeMask.bitOR(attributeMask);
befOpPtr.p->gci = regOperPtr->gci;
befOpPtr.p->optype = opType;
operPtr.p = befOpPtr.p;
checkDetachedTriggers(signal,
befOpPtr.p,
......@@ -483,6 +484,7 @@ Dbtup::commitRecord(Signal* signal,
befOpPtr.p->pageIndex = befOpPtr.p->pageIndexC;
befOpPtr.p->gci = regOperPtr->gci;
befOpPtr.p->optype = opType;
operPtr.p = befOpPtr.p;
checkDetachedTriggers(signal,
befOpPtr.p,
......
......@@ -250,10 +250,10 @@ NdbEventOperationImpl::execute()
int hasSubscriber;
int r= m_bufferHandle->prepareAddSubscribeEvent(this,
hasSubscriber /*return value*/);
m_error.code= 4709;
if (r < 0)
{
m_error.code= 4709;
DBUG_RETURN(-1);
}
......
......@@ -35,7 +35,8 @@ testPartitioning \
testBitfield \
DbCreate DbAsyncGenerator \
test_event_multi_table \
testSRBank
testSRBank \
test_event_merge
#flexTimedAsynch
#testBlobs
......@@ -80,6 +81,7 @@ DbCreate_SOURCES = bench/mainPopulate.cpp bench/dbPopulate.cpp bench/userInterfa
DbAsyncGenerator_SOURCES = bench/mainAsyncGenerator.cpp bench/asyncGenerator.cpp bench/ndb_async2.cpp bench/dbGenerator.h bench/macros.h bench/userInterface.h bench/testData.h bench/testDefinitions.h bench/ndb_schema.hpp bench/ndb_error.hpp
test_event_multi_table_SOURCES = test_event_multi_table.cpp
testSRBank_SOURCES = testSRBank.cpp
test_event_merge_SOURCES = test_event_merge.cpp
INCLUDES_LOC = -I$(top_srcdir)/ndb/include/kernel
......@@ -160,3 +162,4 @@ testScan.dsp: Makefile \
@$(top_srcdir)/ndb/config/win-includes $@ $(INCLUDES)
@$(top_srcdir)/ndb/config/win-sources $@ $(testScan_SOURCES)
@$(top_srcdir)/ndb/config/win-libraries $@ LINK $(LDADD)
/* Copyright (C) 2005 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <ndb_global.h>
#include <ndb_opts.h>
#include <NdbApi.hpp>
#include <NdbTest.hpp>
#include <my_sys.h>
#include <ndb_version.h>
#if NDB_VERSION_D < MAKE_VERSION(5, 1, 0)
#define version50
#else
#undef version50
#endif
#if !defined(min) || !defined(max)
#define min(x, y) ((x) < (y) ? (x) : (y))
#define max(x, y) ((x) > (y) ? (x) : (y))
#endif
/*
* Test composite operations on same PK via events. The merge of event
* data can happen in 2 places:
*
* 1) In TUP at commit, the detached triggers report a single composite
* operation and its post/pre data
*
* 2) In event API version >= 5.1 separate commits within same GCI are
* by default merged. This is required to read blob data via NdbBlob.
*
* This test program ignores Blob columns in version 5.0.
*
* There are 5 ways (ignoring NUL operand) to compose 2 ops:
* 5.0 bugs 5.1 bugs
* INS o DEL = NUL
* INS o UPD = INS 5.1
* DEL o INS = UPD type=INS 5.1
* UPD o DEL = DEL no event
* UPD o UPD = UPD
*/
struct Opts {
my_bool abort_on_error;
int loglevel;
uint loop;
uint maxops;
uint maxpk;
const char* opstr;
uint seed;
my_bool separate_events;
my_bool use_table;
};
static Opts g_opts;
static const uint g_maxops = 10000;
static const uint g_maxpk = 100;
static Ndb_cluster_connection* g_ncc = 0;
static Ndb* g_ndb = 0;
static NdbDictionary::Dictionary* g_dic = 0;
static NdbTransaction* g_con = 0;
static NdbOperation* g_op = 0;
static const char* g_tabname = "tem1";
static const char* g_evtname = "tem1ev1";
static const uint g_charlen = 5;
static const char* g_csname = "latin1_swedish_ci";
static const NdbDictionary::Table* g_tab = 0;
static const NdbDictionary::Event* g_evt = 0;
static NdbEventOperation* g_evt_op = 0;
static uint
urandom(uint n)
{
uint r = (uint)random();
if (n != 0)
r = r % n;
return r;
}
static int& g_loglevel = g_opts.loglevel; // default log level
#define chkdb(x) \
do { if (x) break; ndbout << "line " << __LINE__ << " FAIL " << #x << endl; errdb(); if (g_opts.abort_on_error) abort(); return -1; } while (0)
#define chkrc(x) \
do { if (x) break; ndbout << "line " << __LINE__ << " FAIL " << #x << endl; if (g_opts.abort_on_error) abort(); return -1; } while (0)
#define reqrc(x) \
do { if (x) break; ndbout << "line " << __LINE__ << " ASSERT " << #x << endl; abort(); } while (0)
#define ll0(x) \
do { if (g_loglevel < 0) break; ndbout << x << endl; } while (0)
#define ll1(x) \
do { if (g_loglevel < 1) break; ndbout << x << endl; } while (0)
#define ll2(x) \
do { if (g_loglevel < 2) break; ndbout << x << endl; } while (0)
static void
errdb()
{
uint any = 0;
if (g_ndb != 0) {
const NdbError& e = g_ndb->getNdbError();
if (e.code != 0)
ll0(++any << " ndb: error " << e);
}
if (g_dic != 0) {
const NdbError& e = g_dic->getNdbError();
if (e.code != 0)
ll0(++any << " dic: error " << e);
}
if (g_con != 0) {
const NdbError& e = g_con->getNdbError();
if (e.code != 0)
ll0(++any << " con: error " << e);
}
if (g_op != 0) {
const NdbError& e = g_op->getNdbError();
if (e.code != 0)
ll0(++any << " op: error " << e);
}
if (g_evt_op != 0) {
const NdbError& e = g_evt_op->getNdbError();
if (e.code != 0)
ll0(++any << " evt_op: error " << e);
}
if (! any)
ll0("unknown db error");
}
struct Col {
uint no;
const char* name;
NdbDictionary::Column::Type type;
bool pk;
bool nullable;
uint length;
uint size;
};
static Col g_col[] = {
{ 0, "pk1", NdbDictionary::Column::Unsigned, true, false, 1, 4 },
{ 1, "pk2", NdbDictionary::Column::Char, true, false, g_charlen, g_charlen },
{ 2, "seq", NdbDictionary::Column::Unsigned, false, false, 1, 4 },
{ 3, "cc1", NdbDictionary::Column::Char, false, true, g_charlen, g_charlen }
};
static const uint g_ncol = sizeof(g_col)/sizeof(g_col[0]);
static const Col&
getcol(uint i)
{
if (i < g_ncol)
return g_col[i];
assert(false);
return g_col[g_ncol];
}
static const Col&
getcol(const char* name)
{
uint i;
for (i = 0; i < g_ncol; i++)
if (strcmp(g_col[i].name, name) == 0)
break;
return getcol(i);
}
static int
createtable()
{
g_tab = 0;
NdbDictionary::Table tab(g_tabname);
tab.setLogging(false);
CHARSET_INFO* cs;
chkrc((cs = get_charset_by_name(g_csname, MYF(0))) != 0);
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = g_col[i];
NdbDictionary::Column col(c.name);
col.setType(c.type);
col.setPrimaryKey(c.pk);
if (! c.pk)
col.setNullable(true);
col.setLength(c.length);
switch (c.type) {
case NdbDictionary::Column::Unsigned:
break;
case NdbDictionary::Column::Char:
col.setLength(c.length);
col.setCharset(cs);
break;
default:
assert(false);
break;
}
tab.addColumn(col);
}
g_dic = g_ndb->getDictionary();
if (! g_opts.use_table) {
if (g_dic->getTable(g_tabname) != 0)
chkdb(g_dic->dropTable(g_tabname) == 0);
chkdb(g_dic->createTable(tab) == 0);
}
chkdb((g_tab = g_dic->getTable(g_tabname)) != 0);
g_dic = 0;
if (! g_opts.use_table) {
// extra row for GCI probe
chkdb((g_con = g_ndb->startTransaction()) != 0);
chkdb((g_op = g_con->getNdbOperation(g_tabname)) != 0);
chkdb(g_op->insertTuple() == 0);
Uint32 pk1;
char pk2[g_charlen];
pk1 = g_maxpk;
memset(pk2, 0x20, g_charlen);
chkdb(g_op->equal("pk1", (char*)&pk1) == 0);
chkdb(g_op->equal("pk2", (char*)&pk2[0]) == 0);
chkdb(g_con->execute(Commit) == 0);
g_ndb->closeTransaction(g_con);
g_op = 0;
g_con = 0;
}
return 0;
}
static int
droptable()
{
if (! g_opts.use_table) {
g_dic = g_ndb->getDictionary();
chkdb(g_dic->dropTable(g_tab->getName()) == 0);
g_tab = 0;
g_dic = 0;
}
return 0;
}
struct Data {
Uint32 pk1;
char pk2[g_charlen];
Uint32 seq;
char cc1[g_charlen];
void* ptr[g_ncol];
int ind[g_ncol]; // -1 = no data, 1 = NULL, 0 = not NULL
void init() {
uint i;
pk1 = 0;
memset(pk2, 0, sizeof(pk2));
seq = 0;
memset(cc1, 0, sizeof(cc1));
ptr[0] = &pk1;
ptr[1] = pk2;
ptr[2] = &seq;
ptr[3] = cc1;
for (i = 0; i < g_ncol; i++)
ind[i] = -1;
}
};
static NdbOut&
operator<<(NdbOut& out, const Data& d)
{
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = getcol(i);
out << (i == 0 ? "" : " ") << c.name << "=";
if (d.ind[i] == -1)
continue;
if (d.ind[i] == 1) {
out << "NULL";
continue;
}
switch (c.type) {
case NdbDictionary::Column::Unsigned:
out << *(Uint32*)d.ptr[i];
break;
case NdbDictionary::Column::Char:
{
char buf[g_charlen + 1];
memcpy(buf, d.ptr[i], g_charlen);
uint n = g_charlen;
while (1) {
buf[n] = 0;
if (n == 0 || buf[n - 1] != 0x20)
break;
n--;
}
out << buf;
}
break;
default:
out << "?";
break;
}
}
return out;
}
static const uint g_optypes = 3; // real ops 0-2
/*
* Represents single or composite operation or received event. The
* post/pre data is either computed here for operations or received from
* the event.
*/
struct Op { // single or composite
enum Kind { OP = 1, EV = 2 };
enum Type { NUL = -1, INS, DEL, UPD };
Kind kind;
Type type;
Op* next_op; // within one commit
Op* next_com; // next commit chain or next event
uint num_op;
uint num_com;
Data data[2]; // 0-post 1-pre
bool match; // matched to event
void init() {
assert(kind == OP || kind == EV);
type = NUL;
next_op = next_com = 0;
num_op = num_com = 0;
data[0].init();
data[1].init();
match = false;
}
};
static NdbOut&
operator<<(NdbOut& out, Op::Type t)
{
switch (t) {
case Op::NUL:
out << "NUL";
break;
case Op::INS:
out << "INS";
break;
case Op::DEL:
out << "DEL";
break;
case Op::UPD:
out << "UPD";
break;
default:
out << (int)t;
break;
}
return out;
}
static NdbOut&
operator<<(NdbOut& out, const Op& op)
{
out << "t=" << op.type;
out << " " << op.data[0];
out << " [" << op.data[1] << "]";
return out;
}
static int
seteventtype(Op* ev, NdbDictionary::Event::TableEvent te)
{
Op::Type t = Op::NUL;
switch (te) {
case NdbDictionary::Event::TE_INSERT:
t = Op::INS;
break;
case NdbDictionary::Event::TE_DELETE:
t = Op::DEL;
break;
case NdbDictionary::Event::TE_UPDATE:
t = Op::UPD;
break;
default:
ll0("EVT: " << *ev << ": bad event type" << (int)te);
return -1;
}
ev->type = t;
return 0;
}
static uint g_usedops = 0;
static uint g_usedevs = 0;
static Op g_oplist[g_maxops];
static Op g_evlist[g_maxops];
static uint g_maxcom = 8; // max ops per commit
static Op* g_pk_op[g_maxpk];
static Op* g_pk_ev[g_maxpk];
static uint g_seq = 0;
static NdbRecAttr* g_ra[2][g_ncol]; // 0-post 1-pre
static Op* g_rec_ev;
static uint g_ev_cnt[g_maxpk];
static uint
getfreeops()
{
assert(g_opts.maxops >= g_usedops);
return g_opts.maxops - g_usedops;
}
static uint
getfreeevs()
{
assert(g_opts.maxops >= g_usedevs);
return g_opts.maxops - g_usedevs;
}
static Op*
getop()
{
if (g_usedops < g_opts.maxops) {
Op* op = &g_oplist[g_usedops++];
op->kind = Op::OP;
op->init();
return op;
}
assert(false);
return 0;
}
static Op*
getev()
{
if (g_usedevs < g_opts.maxops) {
Op* ev = &g_evlist[g_usedevs++];
ev->kind = Op::EV;
ev->init();
return ev;
}
assert(false);
return 0;
}
static void
resetmem()
{
int i, j;
for (j = 0; j < 2; j++)
for (i = 0; i < g_ncol; i++)
g_ra[j][i] = 0;
g_rec_ev = 0;
for (i = 0; i < g_opts.maxpk; i++)
g_pk_op[i] = 0;
for (i = 0; i < g_opts.maxpk; i++)
g_ev_cnt[i] = 0;
g_seq = 0;
g_usedops = 0;
g_usedevs = 0;
}
struct Comp {
Op::Type t1, t2, t3;
};
static Comp
g_comp[] = {
{ Op::INS, Op::DEL, Op::NUL },
{ Op::INS, Op::UPD, Op::INS },
{ Op::DEL, Op::INS, Op::UPD },
{ Op::UPD, Op::DEL, Op::DEL },
{ Op::UPD, Op::UPD, Op::UPD }
};
static const uint g_ncomp = sizeof(g_comp)/sizeof(g_comp[0]);
static int
checkop(const Op* op, Uint32& pk1)
{
const Data (&d)[2] = op->data;
Op::Type t = op->type;
chkrc(t == Op::NUL || t == Op::INS || t == Op::DEL || t == Op::UPD);
{ const Col& c = getcol("pk1");
chkrc(d[0].ind[c.no] == 0);
pk1 = d[0].pk1;
chkrc(pk1 < g_opts.maxpk);
}
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = getcol(i);
if (t != Op::NUL) {
if (c.pk) {
chkrc(d[0].ind[i] == 0); // even DEL has PK in post data
if (t == Op::INS) {
chkrc(d[1].ind[i] == -1);
} else if (t == Op::DEL) {
#ifdef ndb_event_cares_about_pk_pre_data
chkrc(d[1].ind[i] == -1);
#endif
} else {
#ifdef ndb_event_cares_about_pk_pre_data
chkrc(d[1].ind[i] == 0);
#endif
}
} else {
if (t == Op::INS) {
chkrc(d[0].ind[i] >= 0);
chkrc(d[1].ind[i] == -1);
} else if (t == Op::DEL) {
chkrc(d[0].ind[i] == -1);
chkrc(d[1].ind[i] >= 0);
} else if (op->kind == Op::OP) {
chkrc(d[0].ind[i] >= 0);
chkrc(d[1].ind[i] >= 0);
}
}
}
}
return 0;
}
static Comp*
comptype(Op::Type t1, Op::Type t2) // only non-NUL
{
uint i;
for (i = 0; i < g_ncomp; i++)
if (g_comp[i].t1 == t1 && g_comp[i].t2 == t2)
return &g_comp[i];
return 0;
}
static void
copycol(const Col& c, const Data& d1, Data& d3)
{
if ((d3.ind[c.no] = d1.ind[c.no]) != -1)
memmove(d3.ptr[c.no], d1.ptr[c.no], c.size);
}
static void
copykeys(const Data& d1, Data& d3)
{
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = g_col[i];
if (c.pk)
copycol(c, d1, d3);
}
}
static void
copydata(const Data& d1, Data& d3)
{
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = g_col[i];
copycol(c, d1, d3);
}
}
static void
copyop(const Op* op1, Op* op3)
{
op3->type = op1->type;
copydata(op1->data[0], op3->data[0]);
copydata(op1->data[1], op3->data[1]);
Uint32 pk1_tmp;
reqrc(checkop(op3, pk1_tmp) == 0);
}
// not needed for ops
static void
compdata(const Data& d1, const Data& d2, Data& d3) // d2 overrides d1
{
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = g_col[i];
const Data* d = 0;
if (d1.ind[i] == -1 && d2.ind[i] == -1)
d3.ind[i] = -1;
else if (d1.ind[i] == -1 && d2.ind[i] != -1)
d = &d2;
else if (d1.ind[i] != -1 && d2.ind[i] == -1)
d = &d1;
else
d = &d2;
if (d != 0)
copycol(c, *d, d3);
}
}
static int
compop(const Op* op1, const Op* op2, Op* op3) // op1 o op2 = op3
{
Comp* comp;
if (op2->type == Op::NUL) {
copyop(op1, op3);
return 0;
}
if (op1->type == Op::NUL) {
copyop(op2, op3);
return 0;
}
chkrc((comp = comptype(op1->type, op2->type)) != 0);
op3->type = comp->t3;
copykeys(op2->data[0], op3->data[0]);
if (op3->type != Op::DEL)
copydata(op2->data[0], op3->data[0]);
if (op3->type != Op::INS)
copydata(op1->data[1], op3->data[1]);
Uint32 pk1_tmp;
reqrc(checkop(op3, pk1_tmp) == 0);
// not eliminating identical post-pre fields
return 0;
}
static int
createevent()
{
ll1("createevent");
g_evt = 0;
g_dic = g_ndb->getDictionary();
NdbDictionary::Event evt(g_evtname);
evt.setTable(*g_tab);
evt.addTableEvent(NdbDictionary::Event::TE_ALL);
// pk always
evt.addEventColumn("pk1");
evt.addEventColumn("pk2");
// simple cols
evt.addEventColumn("seq");
evt.addEventColumn("cc1");
if (g_dic->getEvent(evt.getName()) != 0)
chkdb(g_dic->dropEvent(evt.getName()) == 0);
chkdb(g_dic->createEvent(evt) == 0);
chkdb((g_evt = g_dic->getEvent(evt.getName())) != 0);
g_dic = 0;
return 0;
}
static int
dropevent()
{
ll1("dropevent");
g_dic = g_ndb->getDictionary();
chkdb(g_dic->dropEvent(g_evt->getName()) == 0);
g_evt = 0;
g_dic = 0;
return 0;
}
static int
createeventop()
{
ll1("createeventop");
#ifdef version50
uint bsz = 10 * g_opts.maxops;
chkdb((g_evt_op = g_ndb->createEventOperation(g_evt->getName(), bsz)) != 0);
#else
chkdb((g_evt_op = g_ndb->createEventOperation(g_evt->getName())) != 0);
#endif
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = g_col[i];
Data (&d)[2] = g_rec_ev->data;
switch (c.type) {
case NdbDictionary::Column::Unsigned:
case NdbDictionary::Column::Char:
chkdb((g_ra[0][i] = g_evt_op->getValue(c.name, (char*)d[0].ptr[i])) != 0);
chkdb((g_ra[1][i] = g_evt_op->getPreValue(c.name, (char*)d[1].ptr[i])) != 0);
break;
default:
assert(false);
break;
}
}
return 0;
}
static int
dropeventop()
{
ll1("dropeventop");
chkdb(g_ndb->dropEventOperation(g_evt_op) == 0);
g_evt_op = 0;
return 0;
}
static int
waitgci() // wait for event to be installed and for at least 1 GCI to pass
{
const uint ngci = 3;
ll1("waitgci " << ngci);
Uint32 gci[2];
uint i = 0;
while (1) {
chkdb((g_con = g_ndb->startTransaction()) != 0);
{ // forced to exec a dummy op
Uint32 pk1;
char pk2[g_charlen];
pk1 = g_maxpk;
memset(pk2, 0x20, g_charlen);
chkdb((g_op = g_con->getNdbOperation(g_tabname)) != 0);
chkdb(g_op->readTuple() == 0);
chkdb(g_op->equal("pk1", (char*)&pk1) == 0);
chkdb(g_op->equal("pk2", (char*)&pk2[0]) == 0);
chkdb(g_con->execute(Commit) == 0);
g_op = 0;
}
gci[i] = g_con->getGCI();
g_ndb->closeTransaction(g_con);
g_con = 0;
if (i == 1 && gci[0] + ngci <= gci[1]) {
ll1("waitgci: " << gci[0] << " " << gci[1]);
break;
}
i = 1;
}
return 0;
}
static int
makeop(Op* op, Uint32 pk1, Op::Type t, const Op* prev_op)
{
op->type = t;
if (t != Op::INS)
copydata(prev_op->data[0], op->data[1]);
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = getcol(i);
Data (&d)[2] = op->data;
if (i == getcol("pk1").no) {
d[0].pk1 = pk1;
d[0].ind[i] = 0;
continue;
}
if (i == getcol("pk2").no) {
sprintf(d[0].pk2, "%-*u", g_charlen, d[0].pk1);
d[0].ind[i] = 0;
continue;
}
if (t == Op::DEL) {
d[0].ind[i] = -1;
continue;
}
if (i == getcol("seq").no) {
d[0].seq = g_seq++;
d[0].ind[i] = 0;
continue;
}
uint u;
u = urandom(100);
if (c.nullable && u < 20) {
d[0].ind[i] = 1;
continue;
}
switch (c.type) {
case NdbDictionary::Column::Unsigned:
{
u = urandom(0);
Uint32* p = (Uint32*)d[0].ptr[i];
*p = u;
}
break;
case NdbDictionary::Column::Char:
{
u = urandom(g_charlen);
char* p = (char*)d[0].ptr[i];
uint j;
for (j = 0; j < g_charlen; j++) {
uint v = urandom(3);
p[j] = j < u ? "abcde"[v] : 0x20;
}
}
break;
default:
assert(false);
break;
}
d[0].ind[i] = 0;
}
Uint32 pk1_tmp = ~(Uint32)0;
chkrc(checkop(op, pk1_tmp) == 0);
reqrc(pk1 == pk1_tmp);
return 0;
}
static void
makeop(Op* tot_op, Op* com_op, Uint32 pk1, Op::Type t)
{
Op tmp_op;
tmp_op.kind = Op::OP;
Op* op = getop();
reqrc(makeop(op, pk1, t, tot_op) == 0);
// add to end
Op* last_op = com_op;
while (last_op->next_op != 0)
last_op = last_op->next_op;
last_op->next_op = op;
// merge into chain head
tmp_op.init();
reqrc(compop(com_op, op, &tmp_op) == 0);
copyop(&tmp_op, com_op);
// merge into total op
tmp_op.init();
reqrc(compop(tot_op, op, &tmp_op) == 0);
copyop(&tmp_op, tot_op);
// counts
com_op->num_op += 1;
tot_op->num_op += 1;
}
static void
makeops()
{
ll1("makeops");
uint resv = g_opts.opstr == 0 ? 2 * g_opts.maxpk : 0; // for final deletes
uint next = g_opts.opstr == 0 ? g_maxcom : strlen(g_opts.opstr);
Op tmp_op;
tmp_op.kind = Op::OP;
Uint32 pk1 = 0;
while (getfreeops() >= resv + 2 + next && pk1 < g_opts.maxpk) {
if (g_opts.opstr == 0)
pk1 = urandom(g_opts.maxpk);
ll2("makeops: pk1=" << pk1 << " free=" << getfreeops());
// total op on the pk so far
// optype either NUL=initial/deleted or INS=created
Op* tot_op = g_pk_op[pk1];
if (tot_op == 0)
tot_op = g_pk_op[pk1] = getop(); //1
assert(tot_op->type == Op::NUL || tot_op->type == Op::INS);
// add new commit chain to end
Op* last_com = tot_op;
while (last_com->next_com != 0)
last_com = last_com->next_com;
Op* com_op = getop(); //2
last_com->next_com = com_op;
// length of random chain
uint len = ~0;
if (g_opts.opstr == 0)
len = 1 + urandom(g_maxcom - 1);
ll2("makeops: com chain");
uint n = 0;
while (1) {
// random or from g_opts.opstr
Op::Type t;
if (g_opts.opstr == 0) {
if (n == len)
break;
do {
t = (Op::Type)urandom(g_optypes);
} while (tot_op->type == Op::NUL && (t == Op::DEL || t == Op::UPD) ||
tot_op->type == Op::INS && t == Op::INS);
} else {
uint m = strlen(g_opts.opstr);
uint k = tot_op->num_com + tot_op->num_op;
assert(k < m);
char c = g_opts.opstr[k];
if (c == 'c') {
if (k + 1 == m)
pk1 += 1;
break;
}
const char* p = "idu";
const char* q = strchr(p, c);
assert(q != 0);
t = (Op::Type)(q - p);
}
makeop(tot_op, com_op, pk1, t);
assert(tot_op->type == Op::NUL || tot_op->type == Op::INS);
n++;
}
tot_op->num_com += 1;
}
assert(getfreeops() >= resv);
// terminate with DEL if necessary
for (pk1 = 0; pk1 < g_opts.maxpk; pk1++) {
Op* tot_op = g_pk_op[pk1];
if (tot_op == 0)
continue;
if (tot_op->type == Op::NUL)
continue;
assert(g_opts.opstr == 0);
Op* last_com = tot_op;
while (last_com->next_com != 0)
last_com = last_com->next_com;
Op* com_op = getop(); //1
last_com->next_com = com_op;
makeop(tot_op, com_op, pk1, Op::DEL);
assert(tot_op->type == Op::NUL);
tot_op->num_com += 1;
}
}
static int
addndbop(Op* op)
{
chkdb((g_op = g_con->getNdbOperation(g_tabname)) != 0);
switch (op->type) {
case Op::INS:
chkdb(g_op->insertTuple() == 0);
break;
case Op::DEL:
chkdb(g_op->deleteTuple() == 0);
break;
case Op::UPD:
chkdb(g_op->updateTuple() == 0);
break;
default:
assert(false);
break;
}
uint i;
for (i = 0; i < g_ncol; i++) {
const Col& c = getcol(i);
const Data& d = op->data[0];
if (! c.pk)
continue;
chkdb(g_op->equal(c.name, (char*)d.ptr[i]) == 0);
}
if (op->type != Op::DEL) {
for (i = 0; i < g_ncol; i++) {
const Col& c = getcol(i);
const Data& d = op->data[0];
if (c.pk)
continue;
if (d.ind[i] == -1)
continue;
const char* ptr = d.ind[i] == 0 ? (char*)d.ptr[i] : 0;
chkdb(g_op->setValue(c.name, ptr) == 0);
}
}
g_op = 0;
return 0;
}
static int
runops()
{
ll1("runops");
Uint32 pk1;
const Op* com_op[g_maxpk];
uint left = 0;
for (pk1 = 0; pk1 < g_opts.maxpk; pk1++) {
com_op[pk1] = 0;
// total op on the pk
Op* tot_op = g_pk_op[pk1];
if (tot_op == 0)
continue;
// first commit chain
assert(tot_op->next_com != 0);
com_op[pk1] = tot_op->next_com;
left++;
}
while (left != 0) {
pk1 = urandom(g_opts.maxpk);
if (com_op[pk1] == 0)
continue;
// do the ops in one transaction
ll2("runops: pk1=" << pk1);
chkdb((g_con = g_ndb->startTransaction()) != 0);
// first op in chain
Op* op = com_op[pk1]->next_op;
assert(op != 0);
while (op != 0) {
ll2("add op:" << *op);
chkrc(addndbop(op) == 0);
op = op->next_op;
}
chkdb(g_con->execute(Commit) == 0);
g_ndb->closeTransaction(g_con);
g_con = 0;
// next chain
com_op[pk1] = com_op[pk1]->next_com;
if (com_op[pk1] == 0) {
assert(left != 0);
left--;
}
}
assert(left == 0);
return 0;
}
static int
matchevent(Op* ev)
{
Op::Type t = ev->type;
Data (&d)[2] = ev->data;
// get PK
Uint32 pk1 = d[0].pk1;
chkrc(pk1 < g_opts.maxpk);
// on error repeat and print details
uint loop = 0;
while (loop <= 1) {
uint g_loglevel = loop == 0 ? g_opts.loglevel : 2;
ll1("matchevent: pk1=" << pk1 << " type=" << t);
ll2("EVT: " << *ev);
Op* tot_op = g_pk_op[pk1];
Op* com_op = tot_op ? tot_op->next_com : 0;
uint cnt = 0;
bool ok = false;
while (com_op != 0) {
ll2("COM: " << *com_op);
Op* op = com_op->next_op;
assert(op != 0);
while (op != 0) {
ll2("---: " << *op);
op = op->next_op;
}
if (com_op->type != Op::NUL) {
if (com_op->type == t) {
const Data (&d2)[2] = com_op->data;
if (t == Op::INS && d2[0].seq == d[0].seq ||
t == Op::DEL && d2[1].seq == d[1].seq ||
t == Op::UPD && d2[0].seq == d[0].seq) {
if (cnt == g_ev_cnt[pk1]) {
if (! com_op->match) {
ll2("match pos " << cnt);
ok = com_op->match = true;
} else {
ll2("duplicate match");
}
} else {
ll2("match bad pos event=" << g_ev_cnt[pk1] << " op=" << cnt);
}
}
}
cnt++;
}
com_op = com_op->next_com;
}
if (ok)
return 0;
ll2("no match");
if (g_loglevel >= 2)
return -1;
loop++;
}
return 0;
}
static int
matchevents()
{
uint nomatch = 0;
Uint32 pk1;
for (pk1 = 0; pk1 < g_opts.maxpk; pk1++) {
Op* tot_ev = g_pk_ev[pk1];
if (tot_ev == 0)
continue;
Op* com_ev = tot_ev->next_com;
while (com_ev != 0) {
if (matchevent(com_ev) < 0)
nomatch++;
g_ev_cnt[pk1]++;
com_ev = com_ev->next_com;
}
}
chkrc(nomatch == 0);
return 0;
}
static int
matchops()
{
Uint32 pk1;
for (pk1 = 0; pk1 < g_opts.maxpk; pk1++) {
Op* tot_op = g_pk_op[pk1];
if (tot_op == 0)
continue;
Op* com_op = tot_op->next_com;
while (com_op != 0) {
if (com_op->type != Op::NUL && ! com_op->match) {
ll0("COM: " << *com_op);
Op* op = com_op->next_op;
assert(op != 0);
while (op != 0) {
ll0("---: " << *op);
op = op->next_op;
}
ll0("no matching event");
return -1;
}
com_op = com_op->next_com;
}
}
return 0;
}
static int
runevents()
{
ll1("runevents");
NdbEventOperation* evt_op;
uint npoll = 3;
while (npoll != 0) {
npoll--;
int ret;
ll1("poll");
ret = g_ndb->pollEvents(1000);
if (ret <= 0)
continue;
while (1) {
g_rec_ev->init();
Data (&d)[2] = g_rec_ev->data;
#ifdef version50
int overrun = g_opts.maxops;
chkdb((ret = g_evt_op->next(&overrun)) >= 0);
chkrc(overrun == 0);
if (ret == 0)
break;
#else
NdbEventOperation* tmp_op = g_ndb->nextEvent();
if (tmp_op == 0)
break;
reqrc(g_evt_op == tmp_op);
#endif
chkrc(seteventtype(g_rec_ev, g_evt_op->getEventType()) == 0);
// get indicators
{ int i, j;
for (j = 0; j < 2; j++)
for (i = 0; i < g_ncol; i++)
d[j].ind[i] = g_ra[j][i]->isNULL();
}
ll2("runevents: EVT: " << *g_rec_ev);
// check basic sanity
Uint32 pk1 = ~(Uint32)0;
chkrc(checkop(g_rec_ev, pk1) == 0);
// add to events
chkrc(getfreeevs() >= 2);
Op* tot_ev = g_pk_ev[pk1];
if (tot_ev == 0)
tot_ev = g_pk_ev[pk1] = getev(); //1
Op* last_com = tot_ev;
while (last_com->next_com != 0)
last_com = last_com->next_com;
// copy and add
Op* ev = getev(); //3
copyop(g_rec_ev, ev);
last_com->next_com = ev;
}
}
chkrc(matchevents() == 0);
chkrc(matchops() == 0);
return 0;
}
static void
setseed(int n)
{
uint seed;
if (n == -1) {
if (g_opts.seed == 0)
return;
if (g_opts.seed != -1)
seed = (uint)g_opts.seed;
else
seed = 1 + (ushort)getpid();
} else {
if (g_opts.seed != 0)
return;
seed = n;
}
ll0("seed=" << seed);
srandom(seed);
}
static int
runtest()
{
setseed(-1);
chkrc(createtable() == 0);
chkrc(createevent() == 0);
uint n;
for (n = 0; n < g_opts.loop; n++) {
ll0("loop " << n);
setseed(n);
resetmem();
g_rec_ev = getev();
chkrc(createeventop() == 0);
chkdb(g_evt_op->execute() == 0);
chkrc(waitgci() == 0);
makeops();
chkrc(runops() == 0);
chkrc(runevents() == 0);
chkrc(dropeventop() == 0);
}
chkrc(dropevent() == 0);
chkrc(droptable() == 0);
return 0;
}
NDB_STD_OPTS_VARS;
static struct my_option
my_long_options[] =
{
NDB_STD_OPTS("test_event_merge"),
{ "abort-on-error", 1008, "Do abort() on any error",
(gptr*)&g_opts.abort_on_error, (gptr*)&g_opts.abort_on_error, 0,
GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0 },
{ "loglevel", 1001, "Logging level in this program (default 0)",
(gptr*)&g_opts.loglevel, (gptr*)&g_opts.loglevel, 0,
GET_INT, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 },
{ "loop", 1002, "Number of test loops (default 1, 0=forever)",
(gptr*)&g_opts.loop, (gptr*)&g_opts.loop, 0,
GET_INT, REQUIRED_ARG, 1, 0, 0, 0, 0, 0 },
{ "maxops", 1003, "Number of PK operations (default 2000)",
(gptr*)&g_opts.maxops, (gptr*)&g_opts.maxops, 0,
GET_UINT, REQUIRED_ARG, 2000, 0, g_maxops, 0, 0, 0 },
{ "maxpk", 1004, "Number of different PK values (default 10)",
(gptr*)&g_opts.maxpk, (gptr*)&g_opts.maxpk, 0,
GET_UINT, REQUIRED_ARG, 10, 1, g_maxpk, 0, 0, 0 },
{ "opstr", 1005, "Ops to run e.g. idiucdc (c = commit, default random)",
(gptr*)&g_opts.opstr, (gptr*)&g_opts.opstr, 0,
GET_STR_ALLOC, REQUIRED_ARG, 0, 0, 0, 0, 0, 0 },
{ "seed", 1006, "Random seed (0=loop number, default -1=random)",
(gptr*)&g_opts.seed, (gptr*)&g_opts.seed, 0,
GET_INT, REQUIRED_ARG, -1, 0, 0, 0, 0, 0 },
{ "separate-events", 1007, "Do not combine events per GCI >5.0",
(gptr*)&g_opts.separate_events, (gptr*)&g_opts.separate_events, 0,
GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0 },
{ "use-table", 1008, "Use existing table 'tem1'",
(gptr*)&g_opts.use_table, (gptr*)&g_opts.use_table, 0,
GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0 },
{ 0, 0, 0,
0, 0, 0,
GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0 }
};
static void
usage()
{
my_print_help(my_long_options);
}
static int
checkopts()
{
if (g_opts.opstr != 0) {
const char* s = g_opts.opstr;
uint n = strlen(s);
if (n < 3 || s[0] != 'i' || s[n-2] != 'd' || s[n-1] != 'c')
return -1;
while (*s != 0)
if (strchr("iduc", *s++) == 0)
return -1;
}
return 0;
}
int
main(int argc, char** argv)
{
ndb_init();
const char* progname =
strchr(argv[0], '/') ? strrchr(argv[0], '/') + 1 : argv[0];
uint i;
ndbout << progname;
for (i = 1; i < argc; i++)
ndbout << " " << argv[i];
ndbout << endl;
int ret;
ret = handle_options(&argc, &argv, my_long_options, ndb_std_get_one_option);
if (ret != 0 || argc != 0 || checkopts() != 0)
return NDBT_ProgramExit(NDBT_WRONGARGS);
g_ncc = new Ndb_cluster_connection();
if (g_ncc->connect(30) == 0) {
g_ndb = new Ndb(g_ncc, "TEST_DB");
if (g_ndb->init() == 0 && g_ndb->waitUntilReady(30) == 0) {
if (runtest() == 0)
return NDBT_ProgramExit(NDBT_OK);
}
}
delete g_ndb;
delete g_ncc;
return NDBT_ProgramExit(NDBT_FAILED);
}
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