Commit 24b1feea authored by gni/root@ts3-168.ts.cn.tlan's avatar gni/root@ts3-168.ts.cn.tlan

Merge ts3-168.ts.cn.tlan:/home/ngb/mysql/mysql-5.1/mysql-5.1-new-ndb-bj

into  ts3-168.ts.cn.tlan:/home/ngb/mysql/mysql-5.1/mysql-5.1-new-ndb
parents 4b7e0b5f 95478c16
......@@ -167,9 +167,17 @@ File my_register_filename(File fd, const char *FileName, enum file_type
else
my_errno=errno;
DBUG_PRINT("error",("Got error %d on open",my_errno));
if (MyFlags & (MY_FFNF | MY_FAE | MY_WME))
my_error(error_message_number, MYF(ME_BELL+ME_WAITTANG),
if (MyFlags & (MY_FFNF | MY_FAE | MY_WME)) {
if (my_errno == EMFILE) {
DBUG_PRINT("error",("print err: %d",EE_OUT_OF_FILERESOURCES));
my_error(EE_OUT_OF_FILERESOURCES, MYF(ME_BELL+ME_WAITTANG),
FileName, my_errno);
} else {
DBUG_PRINT("error",("print err: %d",error_message_number));
my_error(error_message_number, MYF(ME_BELL+ME_WAITTANG),
FileName, my_errno);
}
}
return(fd);
}
......
......@@ -4825,10 +4825,18 @@ int ha_ndbcluster::create(const char *name,
}
if (info->store_on_disk)
{
if (info->tablespace)
tab.setTablespace(info->tablespace);
else
tab.setTablespace("DEFAULT-TS");
}
else if (info->tablespace)
{
tab.setTablespace(info->tablespace);
info->store_on_disk = true; //if use tablespace, that also means store on disk
}
// No primary key, create shadow key as 64 bit, auto increment
if (form->s->primary_key == MAX_KEY)
{
......@@ -6537,6 +6545,23 @@ int ndbcluster_find_files(handlerton *hton, THD *thd,
hash_free(&ok_tables);
hash_free(&ndb_tables);
// Delete schema file from files
if (!strcmp(db, NDB_REP_DB))
{
uint count = 0;
while (count++ < files->elements)
{
file_name = (char *)files->pop();
if (!strcmp(file_name, NDB_SCHEMA_TABLE))
{
DBUG_PRINT("info", ("skip %s.%s table, it should be hidden to user",
NDB_REP_DB, NDB_SCHEMA_TABLE));
continue;
}
files->push_back(file_name);
}
}
} // extra bracket to avoid gcc 2.95.3 warning
DBUG_RETURN(0);
}
......
......@@ -2973,6 +2973,7 @@ int MYSQL_BIN_LOG::purge_logs(const char *to_log,
ulonglong *decrease_log_space)
{
int error;
int ret = 0;
bool exit_loop= 0;
LOG_INFO log_info;
DBUG_ENTER("purge_logs");
......@@ -3017,6 +3018,14 @@ int MYSQL_BIN_LOG::purge_logs(const char *to_log,
*decrease_log_space-= file_size;
ha_binlog_index_purge_file(current_thd, log_info.log_file_name);
if (current_thd->query_error) {
DBUG_PRINT("info",("query error: %d", current_thd->query_error));
if (my_errno == EMFILE) {
DBUG_PRINT("info",("my_errno: %d, set ret = LOG_INFO_EMFILE", my_errno));
ret = LOG_INFO_EMFILE;
break;
}
}
if (find_next_log(&log_info, 0) || exit_loop)
break;
......@@ -3027,6 +3036,9 @@ int MYSQL_BIN_LOG::purge_logs(const char *to_log,
the log index file after restart - otherwise, this should be safe
*/
error= update_log_index(&log_info, need_update_threads);
if (error == 0) {
error = ret;
}
err:
if (need_mutex)
......
......@@ -114,6 +114,8 @@ extern TC_LOG_DUMMY tc_log_dummy;
#define LOG_INFO_MEM -6
#define LOG_INFO_FATAL -7
#define LOG_INFO_IN_USE -8
#define LOG_INFO_EMFILE -9
/* bitmap to SQL_LOG::close() */
#define LOG_CLOSE_INDEX 1
......
......@@ -6012,4 +6012,5 @@ ER_WRONG_PARAMETERS_TO_NATIVE_FCT 42000
eng "Incorrect parameters in the call to native function '%-.64s'"
ER_NATIVE_FCT_NAME_COLLISION
eng "This function '%-.64s' has the same name as a native function."
ER_BINLOG_PURGE_EMFILE
eng "Too many files opened, please execute the command again"
......@@ -239,6 +239,7 @@ bool purge_error_message(THD* thd, int res)
case LOG_INFO_MEM: errmsg= ER_OUT_OF_RESOURCES; break;
case LOG_INFO_FATAL: errmsg= ER_BINLOG_PURGE_FATAL_ERR; break;
case LOG_INFO_IN_USE: errmsg= ER_LOG_IN_USE; break;
case LOG_INFO_EMFILE: errmsg= ER_BINLOG_PURGE_EMFILE; break;
default: errmsg= ER_LOG_PURGE_UNKNOWN_ERR; break;
}
......
......@@ -1562,21 +1562,32 @@ int open_table_from_share(THD *thd, TABLE_SHARE *share, const char *alias,
outparam->file->auto_repair() &&
!(ha_open_flags & HA_OPEN_FOR_REPAIR));
if (ha_err == HA_ERR_NO_SUCH_TABLE)
switch (ha_err)
{
/*
The table did not exists in storage engine, use same error message
as if the .frm file didn't exist
*/
error= 1;
my_errno= ENOENT;
}
else
{
outparam->file->print_error(ha_err, MYF(0));
error_reported= TRUE;
if (ha_err == HA_ERR_TABLE_DEF_CHANGED)
error= 7;
case HA_ERR_NO_SUCH_TABLE:
/*
The table did not exists in storage engine, use same error message
as if the .frm file didn't exist
*/
error= 1;
my_errno= ENOENT;
break;
case EMFILE:
/*
Too many files opened, use same error message as if the .frm
file can't open
*/
DBUG_PRINT("error", ("open file: %s failed, too many files opened (errno: %d)",
share->normalized_path.str, ha_err));
error= 1;
my_errno= EMFILE;
break;
default:
outparam->file->print_error(ha_err, MYF(0));
error_reported= TRUE;
if (ha_err == HA_ERR_TABLE_DEF_CHANGED)
error= 7;
break;
}
goto err; /* purecov: inspected */
}
......
......@@ -1182,6 +1182,14 @@ extern "C" {
int ndb_mgm_check_connection(NdbMgmHandle handle);
int ndb_mgm_report_event(NdbMgmHandle handle, Uint32 *data, Uint32 length);
struct ndb_mgm_param_info
{
Uint32 m_id;
const char * m_name;
};
int ndb_mgm_get_db_parameter_info(Uint32 paramId, struct ndb_mgm_param_info * info,
size_t * size);
#endif
#ifndef DOXYGEN_SHOULD_SKIP_DEPRECATED
......
......@@ -99,7 +99,7 @@ typedef ndberror_classification_enum ndberror_classification;
const char *ndberror_status_message(ndberror_status);
const char *ndberror_classification_message(ndberror_classification);
void ndberror_update(ndberror_struct *);
int ndb_error_string(int err_no, char *str, unsigned int size);
int ndb_error_string(int err_no, char *str, int size);
#endif /* doxygen skip internal*/
......
......@@ -20,6 +20,9 @@
#include "TCP_Transporter.hpp"
#include <NdbOut.hpp>
#include <NdbSleep.h>
#include <EventLogger.hpp>
extern EventLogger g_eventLogger;
// End of stuff to be moved
#ifdef NDB_WIN32
......@@ -153,14 +156,14 @@ TCP_Transporter::setSocketOptions(){
if (setsockopt(theSocket, SOL_SOCKET, SO_RCVBUF,
(char*)&sockOptRcvBufSize, sizeof(sockOptRcvBufSize)) < 0) {
#ifdef DEBUG_TRANSPORTER
ndbout_c("The setsockopt SO_RCVBUF error code = %d", InetErrno);
g_eventLogger.error("The setsockopt SO_RCVBUF error code = %d", InetErrno);
#endif
}//if
if (setsockopt(theSocket, SOL_SOCKET, SO_SNDBUF,
(char*)&sockOptSndBufSize, sizeof(sockOptSndBufSize)) < 0) {
#ifdef DEBUG_TRANSPORTER
ndbout_c("The setsockopt SO_SNDBUF error code = %d", InetErrno);
g_eventLogger.error("The setsockopt SO_SNDBUF error code = %d", InetErrno);
#endif
}//if
......@@ -171,7 +174,7 @@ TCP_Transporter::setSocketOptions(){
if (setsockopt(theSocket, IPPROTO_TCP, TCP_NODELAY,
(char*)&sockOptNodelay, sizeof(sockOptNodelay)) < 0) {
#ifdef DEBUG_TRANSPORTER
ndbout_c("The setsockopt TCP_NODELAY error code = %d", InetErrno);
g_eventLogger.error("The setsockopt TCP_NODELAY error code = %d", InetErrno);
#endif
}//if
}
......@@ -185,7 +188,7 @@ TCP_Transporter::setSocketNonBlocking(NDB_SOCKET_TYPE socket){
if(ioctlsocket(socket, FIONBIO, &ul))
{
#ifdef DEBUG_TRANSPORTER
ndbout_c("Set non-blocking server error3: %d", InetErrno);
g_eventLogger.error("Set non-blocking server error3: %d", InetErrno);
#endif
}//if
return true;
......@@ -199,13 +202,13 @@ TCP_Transporter::setSocketNonBlocking(NDB_SOCKET_TYPE socket){
flags = fcntl(socket, F_GETFL, 0);
if (flags < 0) {
#ifdef DEBUG_TRANSPORTER
ndbout_c("Set non-blocking server error1: %s", strerror(InetErrno));
g_eventLogger.error("Set non-blocking server error1: %s", strerror(InetErrno));
#endif
}//if
flags |= NDB_NONBLOCK;
if (fcntl(socket, F_SETFL, flags) == -1) {
#ifdef DEBUG_TRANSPORTER
ndbout_c("Set non-blocking server error2: %s", strerror(InetErrno));
g_eventLogger.error("Set non-blocking server error2: %s", strerror(InetErrno));
#endif
}//if
return true;
......@@ -326,7 +329,7 @@ TCP_Transporter::doSend() {
} else {
// Send failed
#if defined DEBUG_TRANSPORTER
ndbout_c("Send Failure(disconnect==%d) to node = %d nBytesSent = %d "
g_eventLogger.error("Send Failure(disconnect==%d) to node = %d nBytesSent = %d "
"errno = %d strerror = %s",
DISCONNECT_ERRNO(InetErrno, nBytesSent),
remoteNodeId, nBytesSent, InetErrno,
......@@ -361,11 +364,11 @@ TCP_Transporter::doReceive() {
if(receiveBuffer.sizeOfData > receiveBuffer.sizeOfBuffer){
#ifdef DEBUG_TRANSPORTER
ndbout_c("receiveBuffer.sizeOfData(%d) > receiveBuffer.sizeOfBuffer(%d)",
g_eventLogger.error("receiveBuffer.sizeOfData(%d) > receiveBuffer.sizeOfBuffer(%d)",
receiveBuffer.sizeOfData, receiveBuffer.sizeOfBuffer);
ndbout_c("nBytesRead = %d", nBytesRead);
g_eventLogger.error("nBytesRead = %d", nBytesRead);
#endif
ndbout_c("receiveBuffer.sizeOfData(%d) > receiveBuffer.sizeOfBuffer(%d)",
g_eventLogger.error("receiveBuffer.sizeOfData(%d) > receiveBuffer.sizeOfBuffer(%d)",
receiveBuffer.sizeOfData, receiveBuffer.sizeOfBuffer);
report_error(TE_INVALID_MESSAGE_LENGTH);
return 0;
......@@ -382,7 +385,7 @@ TCP_Transporter::doReceive() {
return nBytesRead;
} else {
#if defined DEBUG_TRANSPORTER
ndbout_c("Receive Failure(disconnect==%d) to node = %d nBytesSent = %d "
g_eventLogger.error("Receive Failure(disconnect==%d) to node = %d nBytesSent = %d "
"errno = %d strerror = %s",
DISCONNECT_ERRNO(InetErrno, nBytesRead),
remoteNodeId, nBytesRead, InetErrno,
......
......@@ -778,7 +778,7 @@ TransporterRegistry::poll_TCP(Uint32 timeOutMillis)
tcpReadSelectReply = select(maxSocketValue, &tcpReadset, 0, 0, &timeout);
if(false && tcpReadSelectReply == -1 && errno == EINTR)
ndbout_c("woke-up by signal");
g_eventLogger.info("woke-up by signal");
#ifdef NDB_WIN32
if(tcpReadSelectReply == SOCKET_ERROR)
......@@ -1112,12 +1112,12 @@ TransporterRegistry::start_clients_thread()
}
else if(ndb_mgm_is_connected(m_mgm_handle))
{
ndbout_c("Failed to get dynamic port to connect to: %d", res);
g_eventLogger.info("Failed to get dynamic port to connect to: %d", res);
ndb_mgm_disconnect(m_mgm_handle);
}
else
{
ndbout_c("Management server closed connection early. "
g_eventLogger.info("Management server closed connection early. "
"It is probably being shut down (or has problems). "
"We will retry the connection.");
}
......@@ -1215,7 +1215,7 @@ TransporterRegistry::start_service(SocketServer& socket_server)
DBUG_ENTER("TransporterRegistry::start_service");
if (m_transporter_interface.size() > 0 && !nodeIdSpecified)
{
ndbout_c("TransporterRegistry::startReceiving: localNodeId not specified");
g_eventLogger.error("TransporterRegistry::startReceiving: localNodeId not specified");
DBUG_RETURN(false);
}
......@@ -1241,7 +1241,7 @@ TransporterRegistry::start_service(SocketServer& socket_server)
* If it wasn't a dynamically allocated port, or
* our attempts at getting a new dynamic port failed
*/
ndbout_c("Unable to setup transporter service port: %s:%d!\n"
g_eventLogger.error("Unable to setup transporter service port: %s:%d!\n"
"Please check if the port is already used,\n"
"(perhaps the node is already running)",
t.m_interface ? t.m_interface : "*", t.m_s_service_port);
......@@ -1338,13 +1338,13 @@ bool TransporterRegistry::connect_client(NdbMgmHandle *h)
if(!mgm_nodeid)
{
ndbout_c("%s: %d", __FILE__, __LINE__);
g_eventLogger.error("%s: %d", __FILE__, __LINE__);
return false;
}
Transporter * t = theTransporters[mgm_nodeid];
if (!t)
{
ndbout_c("%s: %d", __FILE__, __LINE__);
g_eventLogger.error("%s: %d", __FILE__, __LINE__);
return false;
}
DBUG_RETURN(t->connect_client(connect_ndb_mgmd(h)));
......@@ -1360,7 +1360,7 @@ NDB_SOCKET_TYPE TransporterRegistry::connect_ndb_mgmd(NdbMgmHandle *h)
if ( h==NULL || *h == NULL )
{
ndbout_c("%s: %d", __FILE__, __LINE__);
g_eventLogger.error("%s: %d", __FILE__, __LINE__);
return NDB_INVALID_SOCKET;
}
......@@ -1373,10 +1373,10 @@ NDB_SOCKET_TYPE TransporterRegistry::connect_ndb_mgmd(NdbMgmHandle *h)
m_transporter_interface[i].m_s_service_port,
&mgm_reply) < 0)
{
ndbout_c("Error: %s: %d",
g_eventLogger.error("Error: %s: %d",
ndb_mgm_get_latest_error_desc(*h),
ndb_mgm_get_latest_error(*h));
ndbout_c("%s: %d", __FILE__, __LINE__);
g_eventLogger.error("%s: %d", __FILE__, __LINE__);
ndb_mgm_destroy_handle(h);
return NDB_INVALID_SOCKET;
}
......@@ -1388,10 +1388,10 @@ NDB_SOCKET_TYPE TransporterRegistry::connect_ndb_mgmd(NdbMgmHandle *h)
NDB_SOCKET_TYPE sockfd= ndb_mgm_convert_to_transporter(h);
if ( sockfd == NDB_INVALID_SOCKET)
{
ndbout_c("Error: %s: %d",
g_eventLogger.error("Error: %s: %d",
ndb_mgm_get_latest_error_desc(*h),
ndb_mgm_get_latest_error(*h));
ndbout_c("%s: %d", __FILE__, __LINE__);
g_eventLogger.error("%s: %d", __FILE__, __LINE__);
ndb_mgm_destroy_handle(h);
}
return sockfd;
......
......@@ -122,12 +122,24 @@ bool
File_class::close()
{
bool rc = true;
int retval = 0;
if (m_file != NULL)
{
::fflush(m_file);
rc = (::fclose(m_file) == 0 ? true : false);
m_file = NULL; // Try again?
retval = ::fclose(m_file);
while ( (retval != 0) && (errno == EINTR) ){
retval = ::fclose(m_file);
}
if( retval == 0){
rc = true;
}
else {
rc = false;
ndbout_c("ERROR: Close file error in File.cpp for %s",strerror(errno));
}
}
m_file = NULL;
return rc;
}
......
......@@ -62,7 +62,8 @@ Cmvmi::Cmvmi(Block_context& ctx) :
&long_sig_buffer_size);
long_sig_buffer_size= long_sig_buffer_size / 256;
g_sectionSegmentPool.setSize(long_sig_buffer_size);
g_sectionSegmentPool.setSize(long_sig_buffer_size,
false,true,true,CFG_DB_LONG_SIGNAL_BUFFER);
// Add received signals
addRecSignal(GSN_CONNECT_REP, &Cmvmi::execCONNECT_REP);
......
......@@ -52,7 +52,8 @@ void Dbacc::initRecords()
page8 = (Page8*)allocRecord("Page8",
sizeof(Page8),
cpagesize,
false);
false,
CFG_DB_INDEX_MEM);
operationrec = (Operationrec*)allocRecord("Operationrec",
sizeof(Operationrec),
......
......@@ -311,7 +311,7 @@ void Dbtup::execREAD_CONFIG_REQ(Signal* signal)
c_storedProcPool.setSize(noOfStoredProc);
c_buildIndexPool.setSize(c_noOfBuildIndexRec);
c_triggerPool.setSize(noOfTriggers);
c_triggerPool.setSize(noOfTriggers, false, true, true, CFG_DB_NO_TRIGGERS);
c_extent_hash.setSize(1024); // 4k
......@@ -343,6 +343,7 @@ void Dbtup::initRecords()
{
unsigned i;
Uint32 tmp;
Uint32 tmp1 = 0;
const ndb_mgm_configuration_iterator * p =
m_ctx.m_config.getOwnConfigIterator();
ndbrequire(p != 0);
......@@ -350,7 +351,7 @@ void Dbtup::initRecords()
ndbrequire(!ndb_mgm_get_int_parameter(p, CFG_TUP_PAGE, &tmp));
// Records with dynamic sizes
Page* ptr =(Page*)allocRecord("Page", sizeof(Page), tmp, false);
Page* ptr =(Page*)allocRecord("Page", sizeof(Page), tmp, false, CFG_DB_DATA_MEM);
c_page_pool.set(ptr, tmp);
attrbufrec = (Attrbufrec*)allocRecord("Attrbufrec",
......@@ -374,7 +375,9 @@ void Dbtup::initRecords()
cnoOfTabDescrRec);
ndbrequire(!ndb_mgm_get_int_parameter(p, CFG_TUP_OP_RECS, &tmp));
c_operation_pool.setSize(tmp);
ndb_mgm_get_int_parameter(p, CFG_DB_NO_LOCAL_OPS, &tmp1);
c_operation_pool.setSize(tmp, false, true, true,
tmp1 == 0 ? CFG_DB_NO_OPS : CFG_DB_NO_LOCAL_OPS);
pageRange = (PageRange*)allocRecord("PageRange",
sizeof(PageRange),
......
......@@ -25,6 +25,7 @@
#include <ErrorReporter.hpp>
#include <NdbMem.h>
#include <Bitmask.hpp>
#include <mgmapi.h>
template <class T> class Array;
......@@ -43,7 +44,8 @@ public:
*
* Note, can currently only be called once
*/
bool setSize(Uint32 noOfElements, bool align = false, bool exit_on_error = true, bool guard = true);
bool setSize(Uint32 noOfElements, bool align = false, bool exit_on_error = true,
bool guard = true, Uint32 paramId = 0);
bool set(T*, Uint32 cnt, bool align = false);
void clear() { theArray = 0; }
......@@ -221,13 +223,19 @@ template <class T>
inline
bool
ArrayPool<T>::setSize(Uint32 noOfElements,
bool align, bool exit_on_error, bool guard){
bool align, bool exit_on_error, bool guard, Uint32 paramId){
if(size == 0){
if(noOfElements == 0)
return true;
Uint64 real_size = (Uint64)noOfElements * sizeof(T);
size_t req_size = (size_t)real_size;
Uint64 real_size_align = real_size + sizeof(T);
size_t req_size_align = (size_t)real_size_align;
if(align)
{
alloc_ptr = ndbd_malloc((noOfElements+1) * sizeof(T));
if((Uint64)req_size_align == real_size_align && req_size_align > 0)
alloc_ptr = ndbd_malloc(req_size_align);
UintPtr p = (UintPtr)alloc_ptr;
UintPtr mod = p % sizeof(T);
if (mod)
......@@ -236,14 +244,23 @@ ArrayPool<T>::setSize(Uint32 noOfElements,
}
theArray = (T *)p;
}
else
theArray = (T *)(alloc_ptr = ndbd_malloc(noOfElements * sizeof(T)));
else if((Uint64)req_size == real_size && req_size > 0)
theArray = (T *)(alloc_ptr = ndbd_malloc(req_size));
if(theArray == 0)
{
char errmsg[255] = "ArrayPool<T>::setSize malloc failed";
struct ndb_mgm_param_info param_info;
size_t size = sizeof(ndb_mgm_param_info);
if (!exit_on_error)
return false;
ErrorReporter::handleAssert("ArrayPool<T>::setSize malloc failed",
if(0 != paramId && 0 == ndb_mgm_get_db_parameter_info(paramId, &param_info, &size)) {
BaseString::snprintf(errmsg, sizeof(errmsg),
"Malloc memory for %s failed", param_info.m_name);
}
ErrorReporter::handleAssert(errmsg,
__FILE__, __LINE__, NDBD_EXIT_MEMALLOC);
return false; // not reached
}
......
......@@ -657,29 +657,39 @@ SimulatedBlock::getBatSize(Uint16 blockNo){
}
void*
SimulatedBlock::allocRecord(const char * type, size_t s, size_t n, bool clear)
SimulatedBlock::allocRecord(const char * type, size_t s, size_t n, bool clear, Uint32 paramId)
{
void * p = NULL;
size_t size = n*s;
Uint64 real_size = (Uint64)((Uint64)n)*((Uint64)s);
refresh_watch_dog();
if (size > 0){
if (real_size > 0){
#ifdef VM_TRACE_MEM
ndbout_c("%s::allocRecord(%s, %u, %u) = %u bytes",
ndbout_c("%s::allocRecord(%s, %u, %u) = %llu bytes",
getBlockName(number()),
type,
s,
n,
size);
real_size);
#endif
p = ndbd_malloc(size);
if( real_size == (Uint64)size )
p = ndbd_malloc(size);
if (p == NULL){
char buf1[255];
char buf2[255];
BaseString::snprintf(buf1, sizeof(buf1), "%s could not allocate memory for %s",
getBlockName(number()), type);
BaseString::snprintf(buf2, sizeof(buf2), "Requested: %ux%u = %u bytes",
(Uint32)s, (Uint32)n, (Uint32)size);
struct ndb_mgm_param_info param_info;
size_t size = sizeof(ndb_mgm_param_info);
if(0 != paramId && 0 == ndb_mgm_get_db_parameter_info(paramId, &param_info, &size)) {
BaseString::snprintf(buf1, sizeof(buf1), "%s could not allocate memory for parameter %s",
getBlockName(number()), param_info.m_name);
} else {
BaseString::snprintf(buf1, sizeof(buf1), "%s could not allocate memory for %s",
getBlockName(number()), type);
}
BaseString::snprintf(buf2, sizeof(buf2), "Requested: %ux%u = %llu bytes",
(Uint32)s, (Uint32)n, (Uint64)real_size);
ERROR_SET(fatal, NDBD_EXIT_MEMALLOC, buf1, buf2);
}
......
......@@ -377,7 +377,7 @@ protected:
* Allocates memory for the datastructures where ndb keeps the data
*
*/
void* allocRecord(const char * type, size_t s, size_t n, bool clear = true);
void* allocRecord(const char * type, size_t s, size_t n, bool clear = true, Uint32 paramId = 0);
/**
* Deallocate record
......
noinst_LTLIBRARIES = libmgmapi.la
libmgmapi_la_SOURCES = mgmapi.cpp ndb_logevent.cpp mgmapi_configuration.cpp LocalConfig.cpp ../kernel/error/ndbd_exit_codes.c
libmgmapi_la_SOURCES = mgmapi.cpp ndb_logevent.cpp mgmapi_configuration.cpp LocalConfig.cpp ../kernel/error/ndbd_exit_codes.c ../mgmsrv/ParamInfo.cpp
INCLUDES_LOC = -I$(top_srcdir)/storage/ndb/include/mgmapi
......
#include <ndb_types.h>
#include <mgmapi.h>
#include "mgmapi_configuration.hpp"
#include "../mgmsrv/ParamInfo.hpp"
extern const ParamInfo ParamInfoArray[];
extern const int ParamInfoNum;
ndb_mgm_configuration_iterator::ndb_mgm_configuration_iterator
(const ndb_mgm_configuration & conf, unsigned type_of_section)
......@@ -155,3 +159,37 @@ ndb_mgm_find(ndb_mgm_configuration_iterator* iter,
int param, unsigned search){
return iter->find(param, search);
}
/**
* Retrieve information about parameter
* @param info : in - pointer to structure allocated by caller
* @param size : in/out : pointer to int initialized to sizeof(ndb_mgm_param_info)...will be set to bytes set by function on return
*/
extern "C"
int
ndb_mgm_get_db_parameter_info(Uint32 paramId, struct ndb_mgm_param_info * info, size_t * size) {
if ( paramId == 0 ) {
return -1;
}
for (int i = 0; i < ParamInfoNum; i++) {
if (paramId == ParamInfoArray[i]._paramId && strcmp(DB_TOKEN, ParamInfoArray[i]._section) == 0) {
size_t tmp = 0;
if (tmp + sizeof(info->m_id) <= *size)
{
info->m_id = ParamInfoArray[i]._paramId;
tmp += sizeof(info->m_id);
}
if (tmp + sizeof(info->m_name) <= *size)
{
info->m_name = ParamInfoArray[i]._fname;
tmp += sizeof(info->m_name);
}
*size = tmp;
return 0;
}
}
return -1;
}
......@@ -3150,7 +3150,31 @@ checkDbConstraints(InitConfigFileParser::Context & ctx, const char *){
} else {
ctx.m_userProperties.put("NoOfReplicas", replicas);
}
/**
* In kernel, will calculate the MaxNoOfMeataTables use the following sum:
* Uint32 noOfMetaTables = noOfTables + noOfOrderedIndexes +
* noOfUniqueHashIndexes + 2
* 2 is the number of the SysTables.
* So must check that the sum does't exceed the max value of Uint32.
*/
Uint32 noOfTables = 0,
noOfOrderedIndexes = 0,
noOfUniqueHashIndexes = 0;
ctx.m_currentSection->get("MaxNoOfTables", &noOfTables);
ctx.m_currentSection->get("MaxNoOfOrderedIndexes", &noOfOrderedIndexes);
ctx.m_currentSection->get("MaxNoOfUniqueHashIndexes", &noOfUniqueHashIndexes);
Uint64 sum= (Uint64)noOfTables + noOfOrderedIndexes + noOfUniqueHashIndexes;
if (sum > ((Uint32)~0 - 2)) {
ctx.reportError("The sum of MaxNoOfTables, MaxNoOfOrderedIndexes and"
" MaxNoOfUniqueHashIndexes must not exceed %u - [%s]"
" starting at line: %d",
((Uint32)~0 - 2), ctx.fname, ctx.m_sectionLineno);
return false;
}
return true;
}
......
/* Copyright (C) 2003 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 <../../include/kernel/ndb_limits.h>
#include "ParamInfo.hpp"
#include <mgmapi_config_parameters.h>
#ifndef MYSQLCLUSTERDIR
#define MYSQLCLUSTERDIR "."
#endif
#define KEY_INTERNAL 0
#define MAX_INT_RNIL 0xfffffeff
#define MAX_PORT_NO 65535
#define _STR_VALUE(x) #x
#define STR_VALUE(x) _STR_VALUE(x)
/****************************************************************************
* Section names
****************************************************************************/
#define DB_TOKEN_PRINT "ndbd(DB)"
#define MGM_TOKEN_PRINT "ndb_mgmd(MGM)"
#define API_TOKEN_PRINT "mysqld(API)"
/**
* A MANDATORY parameters must be specified in the config file
* An UNDEFINED parameter may or may not be specified in the config file
*/
static const char* MANDATORY = (char*)~(UintPtr)0;// Default value for mandatory params.
static const char* UNDEFINED = 0; // Default value for undefined params.
extern const ParamInfo ParamInfoArray[];
extern const int ParamInfoNum;
/**
* The default constructors create objects with suitable values for the
* configuration parameters.
*
* Some are however given the value MANDATORY which means that the value
* must be specified in the configuration file.
*
* Min and max values are also given for some parameters.
* - Attr1: Name in file (initial config file)
* - Attr2: Name in prop (properties object)
* - Attr3: Name of Section (in init config file)
* - Attr4: Updateable
* - Attr5: Type of parameter (INT or BOOL)
* - Attr6: Default Value (number only)
* - Attr7: Min value
* - Attr8: Max value
*
* Parameter constraints are coded in file Config.cpp.
*
* *******************************************************************
* Parameters used under development should be marked "NOTIMPLEMENTED"
* *******************************************************************
*/
const ParamInfo ParamInfoArray[] = {
/****************************************************************************
* COMPUTER
***************************************************************************/
{
KEY_INTERNAL,
"COMPUTER",
"COMPUTER",
"Computer section",
CI_INTERNAL,
false,
CI_SECTION,
0,
0, 0 },
{
KEY_INTERNAL,
"Id",
"COMPUTER",
"Name of computer",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
KEY_INTERNAL,
"HostName",
"COMPUTER",
"Hostname of computer (e.g. mysql.com)",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
KEY_INTERNAL,
"ByteOrder",
"COMPUTER",
0,
CI_DEPRICATED,
false,
CI_STRING,
UNDEFINED,
0,
0 },
/****************************************************************************
* SYSTEM
***************************************************************************/
{
CFG_SECTION_SYSTEM,
"SYSTEM",
"SYSTEM",
"System section",
CI_USED,
false,
CI_SECTION,
(const char *)CFG_SECTION_SYSTEM,
0, 0 },
{
CFG_SYS_NAME,
"Name",
"SYSTEM",
"Name of system (NDB Cluster)",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
CFG_SYS_PRIMARY_MGM_NODE,
"PrimaryMGMNode",
"SYSTEM",
"Node id of Primary "MGM_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_SYS_CONFIG_GENERATION,
"ConfigGenerationNumber",
"SYSTEM",
"Configuration generation number",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
/***************************************************************************
* DB
***************************************************************************/
{
CFG_SECTION_NODE,
DB_TOKEN,
DB_TOKEN,
"Node section",
CI_USED,
false,
CI_SECTION,
(const char *)NODE_TYPE_DB,
0, 0
},
{
CFG_NODE_HOST,
"HostName",
DB_TOKEN,
"Name of computer for this node",
CI_INTERNAL,
false,
CI_STRING,
"localhost",
0, 0 },
{
CFG_NODE_SYSTEM,
"System",
DB_TOKEN,
"Name of system for this node",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
KEY_INTERNAL,
"Id",
DB_TOKEN,
"",
CI_DEPRICATED,
false,
CI_INT,
MANDATORY,
"1",
STR_VALUE(MAX_NODES) },
{
CFG_NODE_ID,
"NodeId",
DB_TOKEN,
"Number identifying the database node ("DB_TOKEN_PRINT")",
CI_USED,
false,
CI_INT,
MANDATORY,
"1",
STR_VALUE(MAX_NODES) },
{
KEY_INTERNAL,
"ServerPort",
DB_TOKEN,
"Port used to setup transporter",
CI_USED,
false,
CI_INT,
UNDEFINED,
"1",
STR_VALUE(MAX_PORT_NO) },
{
CFG_DB_NO_REPLICAS,
"NoOfReplicas",
DB_TOKEN,
"Number of copies of all data in the database (1-4)",
CI_USED,
false,
CI_INT,
MANDATORY,
"1",
"4" },
{
CFG_DB_NO_ATTRIBUTES,
"MaxNoOfAttributes",
DB_TOKEN,
"Total number of attributes stored in database. I.e. sum over all tables",
CI_USED,
false,
CI_INT,
"1000",
"32",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_TABLES,
"MaxNoOfTables",
DB_TOKEN,
"Total number of tables stored in the database",
CI_USED,
false,
CI_INT,
"128",
"8",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_ORDERED_INDEXES,
"MaxNoOfOrderedIndexes",
DB_TOKEN,
"Total number of ordered indexes that can be defined in the system",
CI_USED,
false,
CI_INT,
"128",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_UNIQUE_HASH_INDEXES,
"MaxNoOfUniqueHashIndexes",
DB_TOKEN,
"Total number of unique hash indexes that can be defined in the system",
CI_USED,
false,
CI_INT,
"64",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_INDEXES,
"MaxNoOfIndexes",
DB_TOKEN,
"Total number of indexes that can be defined in the system",
CI_DEPRICATED,
false,
CI_INT,
"128",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_INDEX_OPS,
"MaxNoOfConcurrentIndexOperations",
DB_TOKEN,
"Total number of index operations that can execute simultaneously on one "DB_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"8K",
"0",
STR_VALUE(MAX_INT_RNIL)
},
{
CFG_DB_NO_TRIGGERS,
"MaxNoOfTriggers",
DB_TOKEN,
"Total number of triggers that can be defined in the system",
CI_USED,
false,
CI_INT,
"768",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_TRIGGER_OPS,
"MaxNoOfFiredTriggers",
DB_TOKEN,
"Total number of triggers that can fire simultaneously in one "DB_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"4000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
KEY_INTERNAL,
"ExecuteOnComputer",
DB_TOKEN,
"String referencing an earlier defined COMPUTER",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_DB_NO_SAVE_MSGS,
"MaxNoOfSavedMessages",
DB_TOKEN,
"Max number of error messages in error log and max number of trace files",
CI_USED,
true,
CI_INT,
"25",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_MEMLOCK,
"LockPagesInMainMemory",
DB_TOKEN,
"If set to yes, then NDB Cluster data will not be swapped out to disk",
CI_USED,
true,
CI_BOOL,
"false",
"false",
"true" },
{
CFG_DB_WATCHDOG_INTERVAL,
"TimeBetweenWatchDogCheck",
DB_TOKEN,
"Time between execution checks inside a database node",
CI_USED,
true,
CI_INT,
"6000",
"70",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_STOP_ON_ERROR,
"StopOnError",
DB_TOKEN,
"If set to N, "DB_TOKEN_PRINT" automatically restarts/recovers in case of node failure",
CI_USED,
true,
CI_BOOL,
"true",
"false",
"true" },
{
CFG_DB_STOP_ON_ERROR_INSERT,
"RestartOnErrorInsert",
DB_TOKEN,
"See src/kernel/vm/Emulator.hpp NdbRestartType for details",
CI_INTERNAL,
true,
CI_INT,
"2",
"0",
"4" },
{
CFG_DB_NO_OPS,
"MaxNoOfConcurrentOperations",
DB_TOKEN,
"Max number of operation records in transaction coordinator",
CI_USED,
false,
CI_INT,
"32k",
"32",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_LOCAL_OPS,
"MaxNoOfLocalOperations",
DB_TOKEN,
"Max number of operation records defined in the local storage node",
CI_USED,
false,
CI_INT,
UNDEFINED,
"32",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_LOCAL_SCANS,
"MaxNoOfLocalScans",
DB_TOKEN,
"Max number of fragment scans in parallel in the local storage node",
CI_USED,
false,
CI_INT,
UNDEFINED,
"32",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_BATCH_SIZE,
"BatchSizePerLocalScan",
DB_TOKEN,
"Used to calculate the number of lock records for scan with hold lock",
CI_USED,
false,
CI_INT,
STR_VALUE(DEF_BATCH_SIZE),
"1",
STR_VALUE(MAX_PARALLEL_OP_PER_SCAN) },
{
CFG_DB_NO_TRANSACTIONS,
"MaxNoOfConcurrentTransactions",
DB_TOKEN,
"Max number of transaction executing concurrently on the "DB_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"4096",
"32",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_NO_SCANS,
"MaxNoOfConcurrentScans",
DB_TOKEN,
"Max number of scans executing concurrently on the "DB_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"256",
"2",
"500" },
{
CFG_DB_TRANS_BUFFER_MEM,
"TransactionBufferMemory",
DB_TOKEN,
"Dynamic buffer space (in bytes) for key and attribute data allocated for each "DB_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"1M",
"1K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_INDEX_MEM,
"IndexMemory",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for storing indexes",
CI_USED,
false,
CI_INT64,
"18M",
"1M",
"1024G" },
{
CFG_DB_DATA_MEM,
"DataMemory",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for storing data",
CI_USED,
false,
CI_INT64,
"80M",
"1M",
"1024G" },
{
CFG_DB_UNDO_INDEX_BUFFER,
"UndoIndexBuffer",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for writing UNDO logs for index part",
CI_USED,
false,
CI_INT,
"2M",
"1M",
STR_VALUE(MAX_INT_RNIL)},
{
CFG_DB_UNDO_DATA_BUFFER,
"UndoDataBuffer",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for writing UNDO logs for data part",
CI_USED,
false,
CI_INT,
"16M",
"1M",
STR_VALUE(MAX_INT_RNIL)},
{
CFG_DB_REDO_BUFFER,
"RedoBuffer",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for writing REDO logs",
CI_USED,
false,
CI_INT,
"8M",
"1M",
STR_VALUE(MAX_INT_RNIL)},
{
CFG_DB_LONG_SIGNAL_BUFFER,
"LongMessageBuffer",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for internal long messages",
CI_USED,
false,
CI_INT,
"1M",
"512k",
STR_VALUE(MAX_INT_RNIL)},
{
CFG_DB_DISK_PAGE_BUFFER_MEMORY,
"DiskPageBufferMemory",
DB_TOKEN,
"Number bytes on each "DB_TOKEN_PRINT" node allocated for disk page buffer cache",
CI_USED,
false,
CI_INT64,
"64M",
"4M",
"1024G" },
{
CFG_DB_SGA,
"SharedGlobalMemory",
DB_TOKEN,
"Total number bytes on each "DB_TOKEN_PRINT" node allocated for any use",
CI_USED,
false,
CI_INT64,
"20M",
"0",
"65536G" }, // 32k pages * 32-bit i value
{
CFG_DB_START_PARTIAL_TIMEOUT,
"StartPartialTimeout",
DB_TOKEN,
"Time to wait before trying to start wo/ all nodes. 0=Wait forever",
CI_USED,
true,
CI_INT,
"30000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_START_PARTITION_TIMEOUT,
"StartPartitionedTimeout",
DB_TOKEN,
"Time to wait before trying to start partitioned. 0=Wait forever",
CI_USED,
true,
CI_INT,
"60000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_START_FAILURE_TIMEOUT,
"StartFailureTimeout",
DB_TOKEN,
"Time to wait before terminating. 0=Wait forever",
CI_USED,
true,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_HEARTBEAT_INTERVAL,
"HeartbeatIntervalDbDb",
DB_TOKEN,
"Time between "DB_TOKEN_PRINT"-"DB_TOKEN_PRINT" heartbeats. "DB_TOKEN_PRINT" considered dead after 3 missed HBs",
CI_USED,
true,
CI_INT,
"1500",
"10",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_API_HEARTBEAT_INTERVAL,
"HeartbeatIntervalDbApi",
DB_TOKEN,
"Time between "API_TOKEN_PRINT"-"DB_TOKEN_PRINT" heartbeats. "API_TOKEN_PRINT" connection closed after 3 missed HBs",
CI_USED,
true,
CI_INT,
"1500",
"100",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_LCP_INTERVAL,
"TimeBetweenLocalCheckpoints",
DB_TOKEN,
"Time between taking snapshots of the database (expressed in 2log of bytes)",
CI_USED,
true,
CI_INT,
"20",
"0",
"31" },
{
CFG_DB_GCP_INTERVAL,
"TimeBetweenGlobalCheckpoints",
DB_TOKEN,
"Time between doing group commit of transactions to disk",
CI_USED,
true,
CI_INT,
"2000",
"10",
"32000" },
{
CFG_DB_NO_REDOLOG_FILES,
"NoOfFragmentLogFiles",
DB_TOKEN,
"No of 16 Mbyte Redo log files in each of 4 file sets belonging to "DB_TOKEN_PRINT" node",
CI_USED,
false,
CI_INT,
"16",
"3",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_MAX_OPEN_FILES,
"MaxNoOfOpenFiles",
DB_TOKEN,
"Max number of files open per "DB_TOKEN_PRINT" node.(One thread is created per file)",
CI_USED,
false,
CI_INT,
"40",
"20",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_INITIAL_OPEN_FILES,
"InitialNoOfOpenFiles",
DB_TOKEN,
"Initial number of files open per "DB_TOKEN_PRINT" node.(One thread is created per file)",
CI_USED,
false,
CI_INT,
"27",
"20",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_TRANSACTION_CHECK_INTERVAL,
"TimeBetweenInactiveTransactionAbortCheck",
DB_TOKEN,
"Time between inactive transaction checks",
CI_USED,
true,
CI_INT,
"1000",
"1000",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_TRANSACTION_INACTIVE_TIMEOUT,
"TransactionInactiveTimeout",
DB_TOKEN,
"Time application can wait before executing another transaction part (ms).\n"
"This is the time the transaction coordinator waits for the application\n"
"to execute or send another part (query, statement) of the transaction.\n"
"If the application takes too long time, the transaction gets aborted.\n"
"Timeout set to 0 means that we don't timeout at all on application wait.",
CI_USED,
true,
CI_INT,
STR_VALUE(MAX_INT_RNIL),
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_TRANSACTION_DEADLOCK_TIMEOUT,
"TransactionDeadlockDetectionTimeout",
DB_TOKEN,
"Time transaction can be executing in a DB node (ms).\n"
"This is the time the transaction coordinator waits for each database node\n"
"of the transaction to execute a request. If the database node takes too\n"
"long time, the transaction gets aborted.",
CI_USED,
true,
CI_INT,
"1200",
"50",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_LCP_DISC_PAGES_TUP_SR,
"NoOfDiskPagesToDiskDuringRestartTUP",
DB_TOKEN,
"DiskCheckpointSpeedSr",
CI_DEPRICATED,
true,
CI_INT,
"40",
"1",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_LCP_DISC_PAGES_TUP,
"NoOfDiskPagesToDiskAfterRestartTUP",
DB_TOKEN,
"DiskCheckpointSpeed",
CI_DEPRICATED,
true,
CI_INT,
"40",
"1",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_LCP_DISC_PAGES_ACC_SR,
"NoOfDiskPagesToDiskDuringRestartACC",
DB_TOKEN,
"DiskCheckpointSpeedSr",
CI_DEPRICATED,
true,
CI_INT,
"20",
"1",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_LCP_DISC_PAGES_ACC,
"NoOfDiskPagesToDiskAfterRestartACC",
DB_TOKEN,
"DiskCheckpointSpeed",
CI_DEPRICATED,
true,
CI_INT,
"20",
"1",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_DISCLESS,
"Diskless",
DB_TOKEN,
"Run wo/ disk",
CI_USED,
true,
CI_BOOL,
"false",
"false",
"true"},
{
KEY_INTERNAL,
"Discless",
DB_TOKEN,
"Diskless",
CI_DEPRICATED,
true,
CI_BOOL,
"false",
"false",
"true"},
{
CFG_DB_ARBIT_TIMEOUT,
"ArbitrationTimeout",
DB_TOKEN,
"Max time (milliseconds) database partion waits for arbitration signal",
CI_USED,
false,
CI_INT,
"3000",
"10",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_NODE_DATADIR,
"DataDir",
DB_TOKEN,
"Data directory for this node",
CI_USED,
false,
CI_STRING,
MYSQLCLUSTERDIR,
0, 0 },
{
CFG_DB_FILESYSTEM_PATH,
"FileSystemPath",
DB_TOKEN,
"Path to directory where the "DB_TOKEN_PRINT" node stores its data (directory must exist)",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_LOGLEVEL_STARTUP,
"LogLevelStartup",
DB_TOKEN,
"Node startup info printed on stdout",
CI_USED,
false,
CI_INT,
"1",
"0",
"15" },
{
CFG_LOGLEVEL_SHUTDOWN,
"LogLevelShutdown",
DB_TOKEN,
"Node shutdown info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_STATISTICS,
"LogLevelStatistic",
DB_TOKEN,
"Transaction, operation, transporter info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_CHECKPOINT,
"LogLevelCheckpoint",
DB_TOKEN,
"Local and Global checkpoint info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_NODERESTART,
"LogLevelNodeRestart",
DB_TOKEN,
"Node restart, node failure info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_CONNECTION,
"LogLevelConnection",
DB_TOKEN,
"Node connect/disconnect info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_CONGESTION,
"LogLevelCongestion",
DB_TOKEN,
"Congestion info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_ERROR,
"LogLevelError",
DB_TOKEN,
"Transporter, heartbeat errors printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
{
CFG_LOGLEVEL_INFO,
"LogLevelInfo",
DB_TOKEN,
"Heartbeat and log info printed on stdout",
CI_USED,
false,
CI_INT,
"0",
"0",
"15" },
/**
* Backup
*/
{
CFG_DB_PARALLEL_BACKUPS,
"ParallelBackups",
DB_TOKEN,
"Maximum number of parallel backups",
CI_NOTIMPLEMENTED,
false,
CI_INT,
"1",
"1",
"1" },
{
CFG_DB_BACKUP_DATADIR,
"BackupDataDir",
DB_TOKEN,
"Path to where to store backups",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_DB_DISK_SYNCH_SIZE,
"DiskSyncSize",
DB_TOKEN,
"Data written to a file before a synch is forced",
CI_USED,
false,
CI_INT,
"4M",
"32k",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_CHECKPOINT_SPEED,
"DiskCheckpointSpeed",
DB_TOKEN,
"Bytes per second allowed to be written by checkpoint",
CI_USED,
false,
CI_INT,
"10M",
"1M",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_CHECKPOINT_SPEED_SR,
"DiskCheckpointSpeedInRestart",
DB_TOKEN,
"Bytes per second allowed to be written by checkpoint during restart",
CI_USED,
false,
CI_INT,
"100M",
"1M",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_BACKUP_MEM,
"BackupMemory",
DB_TOKEN,
"Total memory allocated for backups per node (in bytes)",
CI_USED,
false,
CI_INT,
"4M", // sum of BackupDataBufferSize and BackupLogBufferSize
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_BACKUP_DATA_BUFFER_MEM,
"BackupDataBufferSize",
DB_TOKEN,
"Default size of databuffer for a backup (in bytes)",
CI_USED,
false,
CI_INT,
"2M", // remember to change BackupMemory
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_BACKUP_LOG_BUFFER_MEM,
"BackupLogBufferSize",
DB_TOKEN,
"Default size of logbuffer for a backup (in bytes)",
CI_USED,
false,
CI_INT,
"2M", // remember to change BackupMemory
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_BACKUP_WRITE_SIZE,
"BackupWriteSize",
DB_TOKEN,
"Default size of filesystem writes made by backup (in bytes)",
CI_USED,
false,
CI_INT,
"32K",
"2K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_BACKUP_MAX_WRITE_SIZE,
"BackupMaxWriteSize",
DB_TOKEN,
"Max size of filesystem writes made by backup (in bytes)",
CI_USED,
false,
CI_INT,
"256K",
"2K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_DB_STRING_MEMORY,
"StringMemory",
DB_TOKEN,
"Default size of string memory (0 -> 5% of max 1-100 -> %of max, >100 -> actual bytes)",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
/***************************************************************************
* API
***************************************************************************/
{
CFG_SECTION_NODE,
API_TOKEN,
API_TOKEN,
"Node section",
CI_USED,
false,
CI_SECTION,
(const char *)NODE_TYPE_API,
0, 0
},
{
CFG_NODE_HOST,
"HostName",
API_TOKEN,
"Name of computer for this node",
CI_INTERNAL,
false,
CI_STRING,
"",
0, 0 },
{
CFG_NODE_SYSTEM,
"System",
API_TOKEN,
"Name of system for this node",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
KEY_INTERNAL,
"Id",
API_TOKEN,
"",
CI_DEPRICATED,
false,
CI_INT,
MANDATORY,
"1",
STR_VALUE(MAX_NODES) },
{
CFG_NODE_ID,
"NodeId",
API_TOKEN,
"Number identifying application node ("API_TOKEN_PRINT")",
CI_USED,
false,
CI_INT,
MANDATORY,
"1",
STR_VALUE(MAX_NODES) },
{
KEY_INTERNAL,
"ExecuteOnComputer",
API_TOKEN,
"String referencing an earlier defined COMPUTER",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_NODE_ARBIT_RANK,
"ArbitrationRank",
API_TOKEN,
"If 0, then "API_TOKEN_PRINT" is not arbitrator. Kernel selects arbitrators in order 1, 2",
CI_USED,
false,
CI_INT,
"0",
"0",
"2" },
{
CFG_NODE_ARBIT_DELAY,
"ArbitrationDelay",
API_TOKEN,
"When asked to arbitrate, arbitrator waits this long before voting (msec)",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_MAX_SCAN_BATCH_SIZE,
"MaxScanBatchSize",
"API",
"The maximum collective batch size for one scan",
CI_USED,
false,
CI_INT,
STR_VALUE(MAX_SCAN_BATCH_SIZE),
"32k",
"16M" },
{
CFG_BATCH_BYTE_SIZE,
"BatchByteSize",
"API",
"The default batch size in bytes",
CI_USED,
false,
CI_INT,
STR_VALUE(SCAN_BATCH_SIZE),
"1k",
"1M" },
{
CFG_BATCH_SIZE,
"BatchSize",
"API",
"The default batch size in number of records",
CI_USED,
false,
CI_INT,
STR_VALUE(DEF_BATCH_SIZE),
"1",
STR_VALUE(MAX_PARALLEL_OP_PER_SCAN) },
/****************************************************************************
* MGM
***************************************************************************/
{
CFG_SECTION_NODE,
MGM_TOKEN,
MGM_TOKEN,
"Node section",
CI_USED,
false,
CI_SECTION,
(const char *)NODE_TYPE_MGM,
0, 0
},
{
CFG_NODE_HOST,
"HostName",
MGM_TOKEN,
"Name of computer for this node",
CI_INTERNAL,
false,
CI_STRING,
"",
0, 0 },
{
CFG_NODE_DATADIR,
"DataDir",
MGM_TOKEN,
"Data directory for this node",
CI_USED,
false,
CI_STRING,
MYSQLCLUSTERDIR,
0, 0 },
{
CFG_NODE_SYSTEM,
"System",
MGM_TOKEN,
"Name of system for this node",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
KEY_INTERNAL,
"Id",
MGM_TOKEN,
"",
CI_DEPRICATED,
false,
CI_INT,
MANDATORY,
"1",
STR_VALUE(MAX_NODES) },
{
CFG_NODE_ID,
"NodeId",
MGM_TOKEN,
"Number identifying the management server node ("MGM_TOKEN_PRINT")",
CI_USED,
false,
CI_INT,
MANDATORY,
"1",
STR_VALUE(MAX_NODES) },
{
CFG_LOG_DESTINATION,
"LogDestination",
MGM_TOKEN,
"String describing where logmessages are sent",
CI_USED,
false,
CI_STRING,
0,
0, 0 },
{
KEY_INTERNAL,
"ExecuteOnComputer",
MGM_TOKEN,
"String referencing an earlier defined COMPUTER",
CI_USED,
false,
CI_STRING,
0,
0, 0 },
{
KEY_INTERNAL,
"MaxNoOfSavedEvents",
MGM_TOKEN,
"",
CI_USED,
false,
CI_INT,
"100",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_MGM_PORT,
"PortNumber",
MGM_TOKEN,
"Port number to give commands to/fetch configurations from management server",
CI_USED,
false,
CI_INT,
NDB_PORT,
"0",
STR_VALUE(MAX_PORT_NO) },
{
KEY_INTERNAL,
"PortNumberStats",
MGM_TOKEN,
"Port number used to get statistical information from a management server",
CI_USED,
false,
CI_INT,
UNDEFINED,
"0",
STR_VALUE(MAX_PORT_NO) },
{
CFG_NODE_ARBIT_RANK,
"ArbitrationRank",
MGM_TOKEN,
"If 0, then "MGM_TOKEN_PRINT" is not arbitrator. Kernel selects arbitrators in order 1, 2",
CI_USED,
false,
CI_INT,
"1",
"0",
"2" },
{
CFG_NODE_ARBIT_DELAY,
"ArbitrationDelay",
MGM_TOKEN,
"",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
/****************************************************************************
* TCP
***************************************************************************/
{
CFG_SECTION_CONNECTION,
"TCP",
"TCP",
"Connection section",
CI_USED,
false,
CI_SECTION,
(const char *)CONNECTION_TYPE_TCP,
0, 0
},
{
CFG_CONNECTION_HOSTNAME_1,
"HostName1",
"TCP",
"Name/IP of computer on one side of the connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_HOSTNAME_2,
"HostName2",
"TCP",
"Name/IP of computer on one side of the connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_1,
"NodeId1",
"TCP",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
CFG_CONNECTION_NODE_2,
"NodeId2",
"TCP",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
CFG_CONNECTION_GROUP,
"Group",
"TCP",
"",
CI_USED,
false,
CI_INT,
"55",
"0", "200" },
{
CFG_CONNECTION_NODE_ID_SERVER,
"NodeIdServer",
"TCP",
"",
CI_USED,
false,
CI_INT,
MANDATORY,
"1", "63" },
{
CFG_CONNECTION_SEND_SIGNAL_ID,
"SendSignalId",
"TCP",
"Sends id in each signal. Used in trace files.",
CI_USED,
false,
CI_BOOL,
"true",
"false",
"true" },
{
CFG_CONNECTION_CHECKSUM,
"Checksum",
"TCP",
"If checksum is enabled, all signals between nodes are checked for errors",
CI_USED,
false,
CI_BOOL,
"false",
"false",
"true" },
{
CFG_CONNECTION_SERVER_PORT,
"PortNumber",
"TCP",
"Port used for this transporter",
CI_USED,
false,
CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_PORT_NO) },
{
CFG_TCP_SEND_BUFFER_SIZE,
"SendBufferMemory",
"TCP",
"Bytes of buffer for signals sent from this node",
CI_USED,
false,
CI_INT,
"256K",
"64K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_TCP_RECEIVE_BUFFER_SIZE,
"ReceiveBufferMemory",
"TCP",
"Bytes of buffer for signals received by this node",
CI_USED,
false,
CI_INT,
"64K",
"16K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_TCP_PROXY,
"Proxy",
"TCP",
"",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_1_SYSTEM,
"NodeId1_System",
"TCP",
"System for node 1 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_2_SYSTEM,
"NodeId2_System",
"TCP",
"System for node 2 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
/****************************************************************************
* SHM
***************************************************************************/
{
CFG_SECTION_CONNECTION,
"SHM",
"SHM",
"Connection section",
CI_USED,
false,
CI_SECTION,
(const char *)CONNECTION_TYPE_SHM,
0, 0 },
{
CFG_CONNECTION_HOSTNAME_1,
"HostName1",
"SHM",
"Name/IP of computer on one side of the connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_HOSTNAME_2,
"HostName2",
"SHM",
"Name/IP of computer on one side of the connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_SERVER_PORT,
"PortNumber",
"SHM",
"Port used for this transporter",
CI_USED,
false,
CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_PORT_NO) },
{
CFG_SHM_SIGNUM,
"Signum",
"SHM",
"Signum to be used for signalling",
CI_USED,
false,
CI_INT,
UNDEFINED,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_1,
"NodeId1",
"SHM",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
CFG_CONNECTION_NODE_2,
"NodeId2",
"SHM",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_STRING,
MANDATORY,
0, 0 },
{
CFG_CONNECTION_GROUP,
"Group",
"SHM",
"",
CI_USED,
false,
CI_INT,
"35",
"0", "200" },
{
CFG_CONNECTION_NODE_ID_SERVER,
"NodeIdServer",
"SHM",
"",
CI_USED,
false,
CI_INT,
MANDATORY,
"1", "63" },
{
CFG_CONNECTION_SEND_SIGNAL_ID,
"SendSignalId",
"SHM",
"Sends id in each signal. Used in trace files.",
CI_USED,
false,
CI_BOOL,
"false",
"false",
"true" },
{
CFG_CONNECTION_CHECKSUM,
"Checksum",
"SHM",
"If checksum is enabled, all signals between nodes are checked for errors",
CI_USED,
false,
CI_BOOL,
"true",
"false",
"true" },
{
CFG_SHM_KEY,
"ShmKey",
"SHM",
"A shared memory key",
CI_USED,
false,
CI_INT,
UNDEFINED,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_SHM_BUFFER_MEM,
"ShmSize",
"SHM",
"Size of shared memory segment",
CI_USED,
false,
CI_INT,
"1M",
"64K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_1_SYSTEM,
"NodeId1_System",
"SHM",
"System for node 1 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_2_SYSTEM,
"NodeId2_System",
"SHM",
"System for node 2 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
/****************************************************************************
* SCI
***************************************************************************/
{
CFG_SECTION_CONNECTION,
"SCI",
"SCI",
"Connection section",
CI_USED,
false,
CI_SECTION,
(const char *)CONNECTION_TYPE_SCI,
0, 0
},
{
CFG_CONNECTION_NODE_1,
"NodeId1",
"SCI",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_STRING,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_2,
"NodeId2",
"SCI",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_STRING,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_GROUP,
"Group",
"SCI",
"",
CI_USED,
false,
CI_INT,
"15",
"0", "200" },
{
CFG_CONNECTION_NODE_ID_SERVER,
"NodeIdServer",
"SCI",
"",
CI_USED,
false,
CI_INT,
MANDATORY,
"1", "63" },
{
CFG_CONNECTION_HOSTNAME_1,
"HostName1",
"SCI",
"Name/IP of computer on one side of the connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_HOSTNAME_2,
"HostName2",
"SCI",
"Name/IP of computer on one side of the connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_SERVER_PORT,
"PortNumber",
"SCI",
"Port used for this transporter",
CI_USED,
false,
CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_PORT_NO) },
{
CFG_SCI_HOST1_ID_0,
"Host1SciId0",
"SCI",
"SCI-node id for adapter 0 on Host1 (a computer can have two adapters)",
CI_USED,
false,
CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_SCI_HOST1_ID_1,
"Host1SciId1",
"SCI",
"SCI-node id for adapter 1 on Host1 (a computer can have two adapters)",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_SCI_HOST2_ID_0,
"Host2SciId0",
"SCI",
"SCI-node id for adapter 0 on Host2 (a computer can have two adapters)",
CI_USED,
false,
CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_SCI_HOST2_ID_1,
"Host2SciId1",
"SCI",
"SCI-node id for adapter 1 on Host2 (a computer can have two adapters)",
CI_USED,
false,
CI_INT,
"0",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_SEND_SIGNAL_ID,
"SendSignalId",
"SCI",
"Sends id in each signal. Used in trace files.",
CI_USED,
false,
CI_BOOL,
"true",
"false",
"true" },
{
CFG_CONNECTION_CHECKSUM,
"Checksum",
"SCI",
"If checksum is enabled, all signals between nodes are checked for errors",
CI_USED,
false,
CI_BOOL,
"false",
"false",
"true" },
{
CFG_SCI_SEND_LIMIT,
"SendLimit",
"SCI",
"Transporter send buffer contents are sent when this no of bytes is buffered",
CI_USED,
false,
CI_INT,
"8K",
"128",
"32K" },
{
CFG_SCI_BUFFER_MEM,
"SharedBufferSize",
"SCI",
"Size of shared memory segment",
CI_USED,
false,
CI_INT,
"1M",
"64K",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_1_SYSTEM,
"NodeId1_System",
"SCI",
"System for node 1 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_2_SYSTEM,
"NodeId2_System",
"SCI",
"System for node 2 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
/****************************************************************************
* OSE
***************************************************************************/
{
CFG_SECTION_CONNECTION,
"OSE",
"OSE",
"Connection section",
CI_USED,
false,
CI_SECTION,
(const char *)CONNECTION_TYPE_OSE,
0, 0
},
{
CFG_CONNECTION_HOSTNAME_1,
"HostName1",
"OSE",
"Name of computer on one side of the connection",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_HOSTNAME_2,
"HostName2",
"OSE",
"Name of computer on one side of the connection",
CI_USED,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_1,
"NodeId1",
"OSE",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_2,
"NodeId2",
"OSE",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
CI_USED,
false,
CI_INT,
UNDEFINED,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_SEND_SIGNAL_ID,
"SendSignalId",
"OSE",
"Sends id in each signal. Used in trace files.",
CI_USED,
false,
CI_BOOL,
"true",
"false",
"true" },
{
CFG_CONNECTION_CHECKSUM,
"Checksum",
"OSE",
"If checksum is enabled, all signals between nodes are checked for errors",
CI_USED,
false,
CI_BOOL,
"false",
"false",
"true" },
{
CFG_OSE_PRIO_A_SIZE,
"PrioASignalSize",
"OSE",
"Size of priority A signals (in bytes)",
CI_USED,
false,
CI_INT,
"1000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_OSE_PRIO_B_SIZE,
"PrioBSignalSize",
"OSE",
"Size of priority B signals (in bytes)",
CI_USED,
false,
CI_INT,
"1000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_OSE_RECEIVE_ARRAY_SIZE,
"ReceiveArraySize",
"OSE",
"Number of OSE signals checked for correct ordering (in no of OSE signals)",
CI_USED,
false,
CI_INT,
"10",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_1_SYSTEM,
"NodeId1_System",
"OSE",
"System for node 1 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_2_SYSTEM,
"NodeId2_System",
"OSE",
"System for node 2 in connection",
CI_INTERNAL,
false,
CI_STRING,
UNDEFINED,
0, 0 },
};
const int ParamInfoNum = sizeof(ParamInfoArray) / sizeof(ParamInfo);
#ifndef PARAMINFO_H
#define PARAMINFO_H
#define DB_TOKEN "DB"
#define MGM_TOKEN "MGM"
#define API_TOKEN "API"
#ifdef __cplusplus
extern "C"
{
#endif
/**
* The Configuration parameter type and status
*/
enum ParameterType { CI_BOOL, CI_INT, CI_INT64, CI_STRING, CI_SECTION };
enum ParameterStatus { CI_USED, ///< Active
CI_DEPRICATED, ///< Can be, but shouldn't
CI_NOTIMPLEMENTED, ///< Is ignored.
CI_INTERNAL ///< Not configurable by the user
};
/**
* Entry for one configuration parameter
*/
typedef struct m_ParamInfo {
Uint32 _paramId;
const char* _fname;
const char* _section;
const char* _description;
ParameterStatus _status;
bool _updateable;
ParameterType _type;
const char* _default;
const char* _min;
const char* _max;
}ParamInfo;
#ifdef __cplusplus
}
#endif
#endif
......@@ -1352,7 +1352,7 @@ Ndb_mgmd_event_service::log(int eventType, const Uint32* theData, NodeId nodeId)
if (EventLoggerBase::event_lookup(eventType,cat,threshold,severity,textF))
DBUG_VOID_RETURN;
char m_text[256];
char m_text[512];
EventLogger::getText(m_text, sizeof(m_text),
textF, theData, nodeId);
......@@ -1368,6 +1368,15 @@ Ndb_mgmd_event_service::log(int eventType, const Uint32* theData, NodeId nodeId)
if (ndb_logevent_body[i].index_fn)
val= (*(ndb_logevent_body[i].index_fn))(val);
str.appfmt("%s=%d\n",ndb_logevent_body[i].token, val);
if(strcmp(ndb_logevent_body[i].token,"error") == 0)
{
int m_text_len= strlen(m_text);
if(sizeof(m_text)-m_text_len-3 > 0)
{
BaseString::snprintf(m_text+m_text_len, 4 , " - ");
ndb_error_string(val, m_text+(m_text_len+3), sizeof(m_text)-m_text_len-3);
}
}
}
Vector<NDB_SOCKET_TYPE> copy;
......
......@@ -774,11 +774,14 @@ const char *ndberror_classification_message(ndberror_classification classificati
return empty_string;
}
int ndb_error_string(int err_no, char *str, unsigned int size)
int ndb_error_string(int err_no, char *str, int size)
{
ndberror_struct error;
unsigned int len;
int len;
assert(size > 1);
if(size <= 1)
return 0;
error.code = err_no;
ndberror_update(&error);
......
......@@ -36,6 +36,7 @@ public:
virtual void logEntry(const LogEntry &){}
virtual void endOfLogEntrys(){}
virtual bool finalize_table(const TableS &){return true;}
virtual bool createSystable(const TableS &){ return true;}
virtual bool update_apply_status(const RestoreMetaData &metaData){return true;}
NODE_GROUP_MAP *m_nodegroup_map;
uint m_nodegroup_map_len;
......
......@@ -666,6 +666,33 @@ err:
return result;
}
bool
BackupRestore::createSystable(const TableS & tables){
const char *tablename = tables.getTableName();
if( strcmp(tablename, NDB_REP_DB "/def/" NDB_APPLY_TABLE) != 0 &&
strcmp(tablename, NDB_REP_DB "/def/" NDB_SCHEMA_TABLE) != 0 )
{
return true;
}
BaseString tmp(tablename);
Vector<BaseString> split;
if(tmp.split(split, "/") != 3){
err << "Invalid table name format " << tablename << endl;
return false;
}
m_ndb->setDatabaseName(split[0].c_str());
m_ndb->setSchemaName(split[1].c_str());
NdbDictionary::Dictionary* dict = m_ndb->getDictionary();
if( dict->getTable(split[2].c_str()) != NULL ){
return true;
}
return table(tables);
}
bool
BackupRestore::table(const TableS & table){
if (!m_restore && !m_restore_meta)
......
......@@ -73,6 +73,7 @@ public:
virtual void endOfLogEntrys();
virtual bool finalize_table(const TableS &);
virtual bool has_temp_error();
virtual bool createSystable(const TableS & table);
virtual bool update_apply_status(const RestoreMetaData &metaData);
void connectToMysql();
bool map_in_frm(char *new_data, const char *data,
......
......@@ -567,6 +567,15 @@ main(int argc, char** argv)
err << metaData[i]->getTableName() << " ... Exiting " << endl;
exitHandler(NDBT_FAILED);
}
} else {
for(Uint32 j= 0; j < g_consumers.size(); j++)
if (!g_consumers[j]->createSystable(* metaData[i]))
{
err << "Restore: Failed to restore system table: ";
err << metaData[i]->getTableName() << " ... Exiting " << endl;
exitHandler(NDBT_FAILED);
}
}
}
debug << "Close tables" << endl;
......
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