Commit a830ed3c authored by tomas@poseidon.ndb.mysql.com's avatar tomas@poseidon.ndb.mysql.com

Merge tulin@bk-internal.mysql.com:/home/bk/mysql-4.1

into poseidon.ndb.mysql.com:/home/tomas/mysql-4.1
parents e17e8b38 f02a3f54
...@@ -553,7 +553,6 @@ extern const GlobalSignalNumber NO_OF_SIGNAL_NAMES; ...@@ -553,7 +553,6 @@ extern const GlobalSignalNumber NO_OF_SIGNAL_NAMES;
#define GSN_STATISTICS_CONF 454 #define GSN_STATISTICS_CONF 454
#define GSN_START_ORD 455 #define GSN_START_ORD 455
/* 456 unused */
/* 457 unused */ /* 457 unused */
#define GSN_EVENT_SUBSCRIBE_REQ 458 #define GSN_EVENT_SUBSCRIBE_REQ 458
...@@ -900,6 +899,7 @@ extern const GlobalSignalNumber NO_OF_SIGNAL_NAMES; ...@@ -900,6 +899,7 @@ extern const GlobalSignalNumber NO_OF_SIGNAL_NAMES;
#define GSN_RESUME_REQ 682 #define GSN_RESUME_REQ 682
#define GSN_STOP_REQ 443 #define GSN_STOP_REQ 443
#define GSN_STOP_REF 444 #define GSN_STOP_REF 444
#define GSN_STOP_CONF 456
#define GSN_API_VERSION_REQ 697 #define GSN_API_VERSION_REQ 697
#define GSN_API_VERSION_CONF 698 #define GSN_API_VERSION_CONF 698
......
...@@ -133,9 +133,9 @@ public: ...@@ -133,9 +133,9 @@ public:
CreateLogBytes = 48, CreateLogBytes = 48,
InfoEvent = 49, InfoEvent = 49,
//GREP // SINGLE USER
GrepSubscriptionInfo = 52, SingleUser = 52,
GrepSubscriptionAlert = 53, /* unused 53 */
//BACKUP //BACKUP
BackupStarted = 54, BackupStarted = 54,
......
...@@ -67,6 +67,13 @@ public: ...@@ -67,6 +67,13 @@ public:
static bool getStopAbort(const Uint32 & requestInfo); static bool getStopAbort(const Uint32 & requestInfo);
}; };
struct StopConf
{
STATIC_CONST( SignalLength = 2 );
Uint32 senderData;
Uint32 nodeState;
};
class StopRef class StopRef
{ {
/** /**
...@@ -86,7 +93,8 @@ public: ...@@ -86,7 +93,8 @@ public:
OK = 0, OK = 0,
NodeShutdownInProgress = 1, NodeShutdownInProgress = 1,
SystemShutdownInProgress = 2, SystemShutdownInProgress = 2,
NodeShutdownWouldCauseSystemCrash = 3 NodeShutdownWouldCauseSystemCrash = 3,
TransactionAbortFailed = 4
}; };
public: public:
......
...@@ -105,9 +105,8 @@ const EventLoggerBase::EventRepLogLevelMatrix EventLoggerBase::matrix[] = { ...@@ -105,9 +105,8 @@ const EventLoggerBase::EventRepLogLevelMatrix EventLoggerBase::matrix[] = {
{ EventReport::CreateLogBytes, LogLevel::llInfo, 11, Logger::LL_INFO }, { EventReport::CreateLogBytes, LogLevel::llInfo, 11, Logger::LL_INFO },
{ EventReport::InfoEvent, LogLevel::llInfo, 2, Logger::LL_INFO }, { EventReport::InfoEvent, LogLevel::llInfo, 2, Logger::LL_INFO },
//Global replication //Single User
{ EventReport::GrepSubscriptionInfo, LogLevel::llGrep, 7, Logger::LL_INFO}, { EventReport::SingleUser, LogLevel::llInfo, 7, Logger::LL_INFO},
{ EventReport::GrepSubscriptionAlert, LogLevel::llGrep, 7, Logger::LL_ALERT},
// Backup // Backup
{ EventReport::BackupStarted, LogLevel::llBackup, 7, Logger::LL_INFO }, { EventReport::BackupStarted, LogLevel::llBackup, 7, Logger::LL_INFO },
...@@ -800,473 +799,29 @@ EventLogger::getText(char * m_text, size_t m_text_len, ...@@ -800,473 +799,29 @@ EventLogger::getText(char * m_text, size_t m_text_len,
); );
break; break;
} }
case EventReport::GrepSubscriptionInfo : case EventReport::SingleUser :
{ {
GrepEvent::Subscription event = (GrepEvent::Subscription)theData[1]; switch (theData[1])
switch(event) {
case GrepEvent::GrepSS_CreateSubIdConf:
{ {
const int subId = theData[2]; case 0:
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Created subscription id"
" (subId=%d,SubKey=%d)"
" Return code: %d.",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepPS_CreateSubIdConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Created subscription id"
" (subId=%d,SubKey=%d)"
" Return code: %d.",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepSS_SubCreateConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
const int nodegrp = theData[5];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Created subscription using"
" (subId=%d,SubKey=%d)"
" in primary system. Primary system has %d nodegroup(s)."
" Return code: %d",
subId,
subKey,
nodegrp,
err);
break;
}
case GrepEvent::GrepPS_SubCreateConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: All participants have created "
"subscriptions"
" using (subId=%d,SubKey=%d)."
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepSS_SubStartMetaConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Logging started on meta data changes."
" using (subId=%d,SubKey=%d)"
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepPS_SubStartMetaConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: All participants have started "
"logging meta data"
" changes on the subscription subId=%d,SubKey=%d) "
"(N.I yet)."
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepSS_SubStartDataConf: {
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Logging started on table data changes "
" using (subId=%d,SubKey=%d)"
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepPS_SubStartDataConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: All participants have started logging "
"table data changes on the subscription "
"subId=%d,SubKey=%d)."
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepPS_SubSyncMetaConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: All participants have started "
" synchronization on meta data (META SCAN) using "
"(subId=%d,SubKey=%d)."
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepSS_SubSyncMetaConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Synchronization started (META SCAN) on "
" meta data using (subId=%d,SubKey=%d)"
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepPS_SubSyncDataConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: All participants have started "
"synchronization "
" on table data (DATA SCAN) using (subId=%d,SubKey=%d)."
" Return code: %d",
subId,
subKey,
err);
break;
}
case GrepEvent::GrepSS_SubSyncDataConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
const int gci = theData[5];
BaseString::snprintf(m_text, m_text_len, BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Synchronization started (DATA SCAN) on " "%sEntering single user mode", theNodeId);
"table data using (subId=%d,SubKey=%d). GCI = %d"
" Return code: %d",
subId,
subKey,
gci,
err);
break; break;
} case 1:
case GrepEvent::GrepPS_SubRemoveConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len, BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: All participants have removed " "%sEntered single user mode %d", theNodeId, theData[2]);
"subscription (subId=%d,SubKey=%d). I have cleaned "
"up resources I've used."
" Return code: %d",
subId,
subKey,
err);
break; break;
} case 2:
case GrepEvent::GrepSS_SubRemoveConf:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len, BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Removed subscription " "%sExiting single user mode", theNodeId);
"(subId=%d,SubKey=%d)"
" Return code: %d",
subId,
subKey,
err);
break; break;
}
default: default:
BaseString::snprintf(m_text,
m_text_len,
"%sUnknown GrepSubscriptonInfo event: %d",
theNodeId,
theData[1]);
}
break;
}
case EventReport::GrepSubscriptionAlert :
{
GrepEvent::Subscription event = (GrepEvent::Subscription)theData[1];
switch(event)
{
case GrepEvent::GrepSS_CreateSubIdRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord:Error code: %d Error message: %s"
" (subId=%d,SubKey=%d)",
err,
GrepError::getErrorDesc((GrepError::GE_Code)err),
subId,
subKey);
break;
}
case GrepEvent::GrepSS_SubCreateRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: FAILED to Created subscription using"
" (subId=%d,SubKey=%d)in primary system."
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepSS_SubStartMetaRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Logging failed to start on meta "
"data changes."
" using (subId=%d,SubKey=%d)"
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepSS_SubStartDataRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Logging FAILED to start on table data "
" changes using (subId=%d,SubKey=%d)"
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepSS_SubSyncMetaRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Synchronization FAILED (META SCAN) on "
" meta data using (subId=%d,SubKey=%d)"
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepSS_SubSyncDataRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
const int gci = theData[5];
BaseString::snprintf(m_text, m_text_len, BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Synchronization FAILED (DATA SCAN) on " "%sUnknown single user report %d", theNodeId, theData[1]);
"table data using (subId=%d,SubKey=%d). GCI = %d"
" Error code: %d Error Message: %s",
subId,
subKey,
gci,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break; break;
} }
case GrepEvent::GrepSS_SubRemoveRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::SSCoord: Failed to remove subscription "
"(subId=%d,SubKey=%d). "
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err)
);
break;
}
case GrepEvent::GrepPS_CreateSubIdRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Error code: %d Error Message: %s"
" (subId=%d,SubKey=%d)",
err,
GrepError::getErrorDesc((GrepError::GE_Code)err),
subId,
subKey);
break;
}
case GrepEvent::GrepPS_SubCreateRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: FAILED to Created subscription using"
" (subId=%d,SubKey=%d)in primary system."
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepPS_SubStartMetaRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Logging failed to start on meta "
"data changes."
" using (subId=%d,SubKey=%d)"
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break; break;
} }
case GrepEvent::GrepPS_SubStartDataRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Logging FAILED to start on table data "
" changes using (subId=%d,SubKey=%d)"
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepPS_SubSyncMetaRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Synchronization FAILED (META SCAN) on "
" meta data using (subId=%d,SubKey=%d)"
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepPS_SubSyncDataRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
const int gci = theData[5];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Synchronization FAILED (DATA SCAN) on "
"table data using (subId=%d,SubKey=%d). GCI = %d. "
" Error code: %d Error Message: %s",
subId,
subKey,
gci,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::GrepPS_SubRemoveRef:
{
const int subId = theData[2];
const int subKey = theData[3];
const int err = theData[4];
BaseString::snprintf(m_text, m_text_len,
"Grep::PSCoord: Failed to remove subscription "
"(subId=%d,SubKey=%d)."
" Error code: %d Error Message: %s",
subId,
subKey,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
case GrepEvent::Rep_Disconnect:
{
const int err = theData[4];
const int nodeId = theData[5];
BaseString::snprintf(m_text, m_text_len,
"Rep: Node %d."
" Error code: %d Error Message: %s",
nodeId,
err,
GrepError::getErrorDesc((GrepError::GE_Code)err));
break;
}
default:
BaseString::snprintf(m_text,
m_text_len,
"%sUnknown GrepSubscriptionAlert event: %d",
theNodeId,
theData[1]);
break;
}
break;
}
case EventReport::BackupStarted: case EventReport::BackupStarted:
BaseString::snprintf(m_text, BaseString::snprintf(m_text,
m_text_len, m_text_len,
......
...@@ -1966,6 +1966,11 @@ Ndbcntr::execRESUME_REQ(Signal* signal){ ...@@ -1966,6 +1966,11 @@ Ndbcntr::execRESUME_REQ(Signal* signal){
//ResumeRef * const ref = (ResumeRef *)&signal->theData[0]; //ResumeRef * const ref = (ResumeRef *)&signal->theData[0];
jamEntry(); jamEntry();
signal->theData[0] = EventReport::SingleUser;
signal->theData[1] = 2;
sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 2, JBB);
//Uint32 senderData = req->senderData; //Uint32 senderData = req->senderData;
//BlockReference senderRef = req->senderRef; //BlockReference senderRef = req->senderRef;
NodeState newState(NodeState::SL_STARTED); NodeState newState(NodeState::SL_STARTED);
...@@ -2004,12 +2009,11 @@ Ndbcntr::execSTOP_REQ(Signal* signal){ ...@@ -2004,12 +2009,11 @@ Ndbcntr::execSTOP_REQ(Signal* signal){
return; return;
} }
if(c_stopRec.stopReq.senderRef != 0 && !singleuser){ if(c_stopRec.stopReq.senderRef != 0){
jam();
/** /**
* Requested a system shutdown * Requested a system shutdown
*/ */
if(StopReq::getSystemStop(req->requestInfo)){ if(!singleuser && StopReq::getSystemStop(req->requestInfo)){
jam(); jam();
sendSignalWithDelay(reference(), GSN_STOP_REQ, signal, 100, sendSignalWithDelay(reference(), GSN_STOP_REQ, signal, 100,
StopReq::SignalLength); StopReq::SignalLength);
...@@ -2031,22 +2035,27 @@ Ndbcntr::execSTOP_REQ(Signal* signal){ ...@@ -2031,22 +2035,27 @@ Ndbcntr::execSTOP_REQ(Signal* signal){
c_stopRec.stopReq = * req; c_stopRec.stopReq = * req;
c_stopRec.stopInitiatedTime = NdbTick_CurrentMillisecond(); c_stopRec.stopInitiatedTime = NdbTick_CurrentMillisecond();
if(StopReq::getSystemStop(c_stopRec.stopReq.requestInfo) && !singleuser) { if(!singleuser) {
if(StopReq::getSystemStop(c_stopRec.stopReq.requestInfo)) {
jam(); jam();
if(StopReq::getPerformRestart(c_stopRec.stopReq.requestInfo)){ if(StopReq::getPerformRestart(c_stopRec.stopReq.requestInfo)){
((Configuration&)theConfiguration).stopOnError(false); ((Configuration&)theConfiguration).stopOnError(false);
} }
} }
if(!singleuser) {
if(!c_stopRec.checkNodeFail(signal)){ if(!c_stopRec.checkNodeFail(signal)){
jam(); jam();
return; return;
} }
}
signal->theData[0] = EventReport::NDBStopStarted; signal->theData[0] = EventReport::NDBStopStarted;
signal->theData[1] = StopReq::getSystemStop(c_stopRec.stopReq.requestInfo) ? 1 : 0; signal->theData[1] = StopReq::getSystemStop(c_stopRec.stopReq.requestInfo) ? 1 : 0;
sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 2, JBB); sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 2, JBB);
}
else
{
signal->theData[0] = EventReport::SingleUser;
signal->theData[1] = 0;
sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 2, JBB);
}
NodeState newState(NodeState::SL_STOPPING_1, NodeState newState(NodeState::SL_STOPPING_1,
StopReq::getSystemStop(c_stopRec.stopReq.requestInfo)); StopReq::getSystemStop(c_stopRec.stopReq.requestInfo));
...@@ -2129,9 +2138,11 @@ Ndbcntr::StopRecord::checkNodeFail(Signal* signal){ ...@@ -2129,9 +2138,11 @@ Ndbcntr::StopRecord::checkNodeFail(Signal* signal){
stopReq.senderRef = 0; stopReq.senderRef = 0;
if (cntr.getNodeState().startLevel != NodeState::SL_SINGLEUSER)
{
NodeState newState(NodeState::SL_STARTED); NodeState newState(NodeState::SL_STARTED);
cntr.updateNodeState(signal, newState); cntr.updateNodeState(signal, newState);
}
signal->theData[0] = EventReport::NDBStopAborted; signal->theData[0] = EventReport::NDBStopAborted;
cntr.sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 1, JBB); cntr.sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 1, JBB);
...@@ -2227,12 +2238,24 @@ void Ndbcntr::execABORT_ALL_CONF(Signal* signal){ ...@@ -2227,12 +2238,24 @@ void Ndbcntr::execABORT_ALL_CONF(Signal* signal){
jamEntry(); jamEntry();
if(c_stopRec.stopReq.singleuser) { if(c_stopRec.stopReq.singleuser) {
jam(); jam();
NodeState newState(NodeState::SL_SINGLEUSER); NodeState newState(NodeState::SL_SINGLEUSER);
newState.setSingleUser(true); newState.setSingleUser(true);
newState.setSingleUserApi(c_stopRec.stopReq.singleUserApi); newState.setSingleUserApi(c_stopRec.stopReq.singleUserApi);
updateNodeState(signal, newState); updateNodeState(signal, newState);
c_stopRec.stopInitiatedTime = NdbTick_CurrentMillisecond(); c_stopRec.stopInitiatedTime = NdbTick_CurrentMillisecond();
StopConf * const stopConf = (StopConf *)&signal->theData[0];
stopConf->senderData = c_stopRec.stopReq.senderData;
stopConf->nodeState = (Uint32) NodeState::SL_SINGLEUSER;
sendSignal(c_stopRec.stopReq.senderRef, GSN_STOP_CONF, signal, StopConf::SignalLength, JBB);
c_stopRec.stopReq.senderRef = 0; // the command is done
signal->theData[0] = EventReport::SingleUser;
signal->theData[1] = 1;
signal->theData[2] = c_stopRec.stopReq.singleUserApi;
sendSignal(CMVMI_REF, GSN_EVENT_REP, signal, 3, JBB);
} }
else else
{ {
...@@ -2250,7 +2273,13 @@ void Ndbcntr::execABORT_ALL_CONF(Signal* signal){ ...@@ -2250,7 +2273,13 @@ void Ndbcntr::execABORT_ALL_CONF(Signal* signal){
void Ndbcntr::execABORT_ALL_REF(Signal* signal){ void Ndbcntr::execABORT_ALL_REF(Signal* signal){
jamEntry(); jamEntry();
ndbrequire(false); AbortAllRef *abortAllRef = (AbortAllRef *)&signal->theData[0];
AbortAllRef::ErrorCode errorCode = (AbortAllRef::ErrorCode) abortAllRef->errorCode;
StopRef * const stopRef = (StopRef *)&signal->theData[0];
stopRef->senderData = c_stopRec.stopReq.senderData;
stopRef->errorCode = StopRef::TransactionAbortFailed;
sendSignal(c_stopRec.stopReq.senderRef, GSN_STOP_REF, signal, StopRef::SignalLength, JBB);
} }
void void
......
...@@ -1430,9 +1430,8 @@ CommandInterpreter::executeEnterSingleUser(char* parameters) ...@@ -1430,9 +1430,8 @@ CommandInterpreter::executeEnterSingleUser(char* parameters)
ndbout_c("Entering single user mode for node %d failed", nodeId); ndbout_c("Entering single user mode for node %d failed", nodeId);
printError(); printError();
} else { } else {
ndbout_c("Entering single user mode"); ndbout_c("Single user mode entered");
ndbout_c("Access will be granted for API node %d only.", nodeId); ndbout_c("Access is granted for API node %d only.", nodeId);
ndbout_c("Use ALL STATUS to see when single user mode has been entered.");
} }
} }
...@@ -1445,7 +1444,7 @@ CommandInterpreter::executeExitSingleUser(char* parameters) ...@@ -1445,7 +1444,7 @@ CommandInterpreter::executeExitSingleUser(char* parameters)
printError(); printError();
} else { } else {
ndbout_c("Exiting single user mode in progress."); ndbout_c("Exiting single user mode in progress.");
ndbout_c("Use ALL STATUS to see when single user mode has been exited."); ndbout_c("Use ALL STATUS or SHOW to see when single user mode has been exited.");
} }
} }
......
...@@ -67,6 +67,16 @@ ...@@ -67,6 +67,16 @@
#define DEBUG(x) #define DEBUG(x)
#endif #endif
#define INIT_SIGNAL_SENDER(ss,nodeId) \
SignalSender ss(theFacade); \
ss.lock(); /* lock will be released on exit */ \
{\
int result = okToSendTo(nodeId, true);\
if (result != 0) {\
return result;\
}\
}
extern int global_flag_send_heartbeat_now; extern int global_flag_send_heartbeat_now;
extern int g_no_nodeid_checks; extern int g_no_nodeid_checks;
extern my_bool opt_core; extern my_bool opt_core;
...@@ -90,55 +100,6 @@ MgmtSrvr::logLevelThread_C(void* m) ...@@ -90,55 +100,6 @@ MgmtSrvr::logLevelThread_C(void* m)
return 0; return 0;
} }
void *
MgmtSrvr::signalRecvThread_C(void *m)
{
MgmtSrvr *mgm = (MgmtSrvr*)m;
mgm->signalRecvThreadRun();
return 0;
}
class SigMatch
{
public:
int gsn;
void (MgmtSrvr::* function)(NdbApiSignal *signal);
SigMatch() { gsn = 0; function = NULL; };
SigMatch(int _gsn,
void (MgmtSrvr::* _function)(NdbApiSignal *signal)) {
gsn = _gsn;
function = _function;
};
bool check(NdbApiSignal *signal) {
if(signal->readSignalNumber() == gsn)
return true;
return false;
};
};
void
MgmtSrvr::signalRecvThreadRun()
{
Vector<SigMatch> siglist;
siglist.push_back(SigMatch(GSN_MGM_LOCK_CONFIG_REQ,
&MgmtSrvr::handle_MGM_LOCK_CONFIG_REQ));
siglist.push_back(SigMatch(GSN_MGM_UNLOCK_CONFIG_REQ,
&MgmtSrvr::handle_MGM_UNLOCK_CONFIG_REQ));
while(!_isStopThread) {
SigMatch *handler = NULL;
NdbApiSignal *signal = NULL;
if(m_signalRecvQueue.waitFor(siglist, &handler, &signal, DEFAULT_TIMEOUT)) {
if(handler->function != 0)
(this->*handler->function)(signal);
}
}
}
extern EventLogger g_eventLogger; extern EventLogger g_eventLogger;
static NdbOut& static NdbOut&
...@@ -427,7 +388,6 @@ MgmtSrvr::MgmtSrvr(SocketServer *socket_server, ...@@ -427,7 +388,6 @@ MgmtSrvr::MgmtSrvr(SocketServer *socket_server,
_isStopThread = false; _isStopThread = false;
_logLevelThread = NULL; _logLevelThread = NULL;
_logLevelThreadSleep = 500; _logLevelThreadSleep = 500;
m_signalRecvThread = NULL;
theFacade = 0; theFacade = 0;
...@@ -636,12 +596,6 @@ MgmtSrvr::start(BaseString &error_string) ...@@ -636,12 +596,6 @@ MgmtSrvr::start(BaseString &error_string)
"MgmtSrvr_Loglevel", "MgmtSrvr_Loglevel",
NDB_THREAD_PRIO_LOW); NDB_THREAD_PRIO_LOW);
m_signalRecvThread = NdbThread_Create(signalRecvThread_C,
(void **)this,
32768,
"MgmtSrvr_Service",
NDB_THREAD_PRIO_LOW);
DBUG_RETURN(true); DBUG_RETURN(true);
} }
...@@ -650,10 +604,6 @@ MgmtSrvr::start(BaseString &error_string) ...@@ -650,10 +604,6 @@ MgmtSrvr::start(BaseString &error_string)
//**************************************************************************** //****************************************************************************
MgmtSrvr::~MgmtSrvr() MgmtSrvr::~MgmtSrvr()
{ {
while (theSignalIdleList != NULL) {
freeSignal();
}
if(theFacade != 0){ if(theFacade != 0){
theFacade->stop_instance(); theFacade->stop_instance();
delete theFacade; delete theFacade;
...@@ -681,10 +631,6 @@ MgmtSrvr::~MgmtSrvr() ...@@ -681,10 +631,6 @@ MgmtSrvr::~MgmtSrvr()
NdbThread_Destroy(&_logLevelThread); NdbThread_Destroy(&_logLevelThread);
} }
if (m_signalRecvThread != NULL) {
NdbThread_WaitFor(m_signalRecvThread, &res);
NdbThread_Destroy(&m_signalRecvThread);
}
if (m_config_retriever) if (m_config_retriever)
delete m_config_retriever; delete m_config_retriever;
} }
...@@ -692,21 +638,21 @@ MgmtSrvr::~MgmtSrvr() ...@@ -692,21 +638,21 @@ MgmtSrvr::~MgmtSrvr()
//**************************************************************************** //****************************************************************************
//**************************************************************************** //****************************************************************************
int MgmtSrvr::okToSendTo(NodeId processId, bool unCond) int MgmtSrvr::okToSendTo(NodeId nodeId, bool unCond)
{ {
if(processId == 0) if(nodeId == 0)
return 0; return 0;
if (getNodeType(processId) != NDB_MGM_NODE_TYPE_NDB) if (getNodeType(nodeId) != NDB_MGM_NODE_TYPE_NDB)
return WRONG_PROCESS_TYPE; return WRONG_PROCESS_TYPE;
// Check if we have contact with it // Check if we have contact with it
if(unCond){ if(unCond){
if(theFacade->theClusterMgr->getNodeInfo(processId).connected) if(theFacade->theClusterMgr->getNodeInfo(nodeId).connected)
return 0; return 0;
return NO_CONTACT_WITH_PROCESS; return NO_CONTACT_WITH_PROCESS;
} }
if (theFacade->get_node_alive(processId) == 0) { if (theFacade->get_node_alive(nodeId) == 0) {
return NO_CONTACT_WITH_PROCESS; return NO_CONTACT_WITH_PROCESS;
} else { } else {
return 0; return 0;
...@@ -727,259 +673,16 @@ void report_unknown_signal(SimpleSignal *signal) ...@@ -727,259 +673,16 @@ void report_unknown_signal(SimpleSignal *signal)
****************************************************************************/ ****************************************************************************/
int int
MgmtSrvr::start(int processId) MgmtSrvr::start(int nodeId)
{ {
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
StartOrd* const startOrd = CAST_PTR(StartOrd, signal->getDataPtrSend());
signal->set(TestOrd::TraceAPI, CMVMI, GSN_START_ORD, StartOrd::SignalLength);
SimpleSignal ssig;
StartOrd* const startOrd = CAST_PTR(StartOrd, ssig.getDataPtrSend());
ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_START_ORD, StartOrd::SignalLength);
startOrd->restartInfo = 0; startOrd->restartInfo = 0;
result = sendSignal(processId, NO_WAIT, signal, true); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
}
/**
* Restart one database node
*/
int
MgmtSrvr::restartNode(int processId, bool nostart,
bool initalStart, bool abort,
StopCallback callback, void * anyData)
{
int result;
if(m_stopRec.singleUserMode)
return 5060;
if(m_stopRec.inUse){
return 5029;
}
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
StopReq* const stopReq = CAST_PTR(StopReq, signal->getDataPtrSend());
signal->set(TestOrd::TraceAPI, NDBCNTR, GSN_STOP_REQ, StopReq::SignalLength);
stopReq->requestInfo = 0;
StopReq::setSystemStop(stopReq->requestInfo, false);
StopReq::setPerformRestart(stopReq->requestInfo, true);
StopReq::setNoStart(stopReq->requestInfo, nostart);
StopReq::setInitialStart(stopReq->requestInfo, initalStart);
StopReq::setStopAbort(stopReq->requestInfo, abort);
stopReq->singleuser = 0;
stopReq->apiTimeout = 5000;
stopReq->transactionTimeout = 1000;
stopReq->readOperationTimeout = 1000;
stopReq->operationTimeout = 1000;
stopReq->senderData = 12;
stopReq->senderRef = _ownReference;
m_stopRec.singleUserMode = false;
m_stopRec.sentCount = 1;
m_stopRec.reply = 0;
m_stopRec.nodeId = processId;
m_stopRec.anyData = anyData;
m_stopRec.callback = callback;
m_stopRec.inUse = true;
if(callback == NULL){
Uint32 timeOut = 0;
timeOut += stopReq->apiTimeout;
timeOut += stopReq->transactionTimeout;
timeOut += stopReq->readOperationTimeout;
timeOut += stopReq->operationTimeout;
timeOut *= 3;
result = sendRecSignal(processId, WAIT_STOP, signal, true, timeOut);
} else {
result = sendSignal(processId, NO_WAIT, signal, true);
}
if (result == -1 && theWaitState != WAIT_NODEFAILURE) {
m_stopRec.inUse = false;
return SEND_OR_RECEIVE_FAILED;
}
if(callback == 0){
m_stopRec.inUse = false;
return m_stopRec.reply;
} else {
return 0;
}
}
/**
* Restart all database nodes
*/
int
MgmtSrvr::restart(bool nostart, bool initalStart, bool abort,
int * stopCount, StopCallback callback, void * anyData)
{
if(m_stopRec.singleUserMode)
return 5060;
if(m_stopRec.inUse){
return 5029;
}
m_stopRec.singleUserMode = false;
m_stopRec.sentCount = 0;
m_stopRec.reply = 0;
m_stopRec.nodeId = 0;
m_stopRec.anyData = anyData;
m_stopRec.callback = callback;
m_stopRec.inUse = true;
/**
* Restart all database nodes into idle ("no-started") state
*/
Uint32 timeOut = 0;
NodeId nodeId = 0;
NodeBitmask nodes;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)){
if(okToSendTo(nodeId, true) == 0){
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
StopReq* const stopReq = CAST_PTR(StopReq, signal->getDataPtrSend());
signal->set(TestOrd::TraceAPI, NDBCNTR, GSN_STOP_REQ,
StopReq::SignalLength);
stopReq->requestInfo = 0;
stopReq->singleuser = 0;
StopReq::setSystemStop(stopReq->requestInfo, true);
StopReq::setPerformRestart(stopReq->requestInfo, true);
if (callback == 0) {
// Start node in idle ("no-started") state
StopReq::setNoStart(stopReq->requestInfo, 1);
} else {
StopReq::setNoStart(stopReq->requestInfo, nostart);
}
StopReq::setInitialStart(stopReq->requestInfo, initalStart);
StopReq::setStopAbort(stopReq->requestInfo, abort);
stopReq->apiTimeout = 5000;
stopReq->transactionTimeout = 1000;
stopReq->readOperationTimeout = 1000;
stopReq->operationTimeout = 1000;
stopReq->senderData = 12;
stopReq->senderRef = _ownReference;
timeOut += stopReq->apiTimeout;
timeOut += stopReq->transactionTimeout;
timeOut += stopReq->readOperationTimeout;
timeOut += stopReq->operationTimeout;
timeOut *= 3;
m_stopRec.sentCount++;
int res;
if(callback == 0){
res = sendSignal(nodeId, WAIT_STOP, signal, true);
} else {
res = sendSignal(nodeId, NO_WAIT, signal, true);
}
if(res != -1){
nodes.set(nodeId);
}
}
}
if(stopCount != 0){
* stopCount = m_stopRec.sentCount;
}
if(m_stopRec.sentCount == 0){
m_stopRec.inUse = false;
return 0;
}
if(callback != 0){
return 0;
}
theFacade->lock_mutex();
int waitTime = timeOut/m_stopRec.sentCount;
if (receiveOptimisedResponse(waitTime) != 0) {
m_stopRec.inUse = false;
return -1;
}
/**
* Here all nodes were correctly stopped,
* so we wait for all nodes to be contactable
*/
nodeId = 0;
NDB_TICKS maxTime = NdbTick_CurrentMillisecond() + waitTime;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB) && nodes.get(nodeId)) {
enum ndb_mgm_node_status s;
s = NDB_MGM_NODE_STATUS_NO_CONTACT;
while (s != NDB_MGM_NODE_STATUS_NOT_STARTED && waitTime > 0) {
Uint32 startPhase = 0, version = 0, dynamicId = 0, nodeGroup = 0;
Uint32 connectCount = 0;
bool system;
status(nodeId, &s, &version, &startPhase,
&system, &dynamicId, &nodeGroup, &connectCount);
NdbSleep_MilliSleep(100);
waitTime = (maxTime - NdbTick_CurrentMillisecond());
}
}
if(nostart){
m_stopRec.inUse = false;
return 0;
}
/**
* Now we start all database nodes (i.e. we make them non-idle)
* We ignore the result we get from the start command.
*/
nodeId = 0;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB) && nodes.get(nodeId)) {
int result;
result = start(nodeId);
DEBUG("Starting node " << nodeId << " with result " << result);
/**
* Errors from this call are deliberately ignored.
* Maybe the user only wanted to restart a subset of the nodes.
* It is also easy for the user to check which nodes have
* started and which nodes have not.
*
* if (result != 0) {
* m_stopRec.inUse = false;
* return result;
* }
*/
}
m_stopRec.inUse = false;
return 0;
} }
/***************************************************************************** /*****************************************************************************
...@@ -987,438 +690,439 @@ MgmtSrvr::restart(bool nostart, bool initalStart, bool abort, ...@@ -987,438 +690,439 @@ MgmtSrvr::restart(bool nostart, bool initalStart, bool abort,
*****************************************************************************/ *****************************************************************************/
int int
MgmtSrvr::versionNode(int processId, bool abort, MgmtSrvr::versionNode(int nodeId, Uint32 &version)
VersionCallback callback, void * anyData)
{ {
int version; version= 0;
if (getOwnNodeId() == nodeId)
if(m_versionRec.inUse)
return OPERATION_IN_PROGRESS;
m_versionRec.callback = callback;
m_versionRec.inUse = true ;
if (getOwnNodeId() == processId)
{ {
version= NDB_VERSION; version= NDB_VERSION;
} }
else if (getNodeType(processId) == NDB_MGM_NODE_TYPE_NDB) else if (getNodeType(nodeId) == NDB_MGM_NODE_TYPE_NDB)
{ {
ClusterMgr::Node node= theFacade->theClusterMgr->getNodeInfo(processId); ClusterMgr::Node node= theFacade->theClusterMgr->getNodeInfo(nodeId);
if(node.connected) if(node.connected)
version= node.m_info.m_version; version= node.m_info.m_version;
else
version= 0;
} }
else if (getNodeType(processId) == NDB_MGM_NODE_TYPE_API || else if (getNodeType(nodeId) == NDB_MGM_NODE_TYPE_API ||
getNodeType(processId) == NDB_MGM_NODE_TYPE_MGM) getNodeType(nodeId) == NDB_MGM_NODE_TYPE_MGM)
{ {
return sendVersionReq(processId); return sendVersionReq(nodeId, version);
} }
else
version= 0;
if(m_versionRec.callback != 0)
m_versionRec.callback(processId, version, this,0);
m_versionRec.inUse = false ;
m_versionRec.version[processId]= version;
return 0; return 0;
} }
int int
MgmtSrvr::sendVersionReq(int processId) MgmtSrvr::sendVersionReq(int v_nodeId, Uint32 &version)
{ {
Uint32 ndbnode=0; SignalSender ss(theFacade);
int result; ss.lock();
for(Uint32 i = 0; i<MAX_NODES; i++) {
if (getNodeType(i) == NDB_MGM_NODE_TYPE_NDB) {
if(okToSendTo(i, true) == 0)
{
ndbnode = i;
break;
}
}
}
if (ndbnode == 0) {
m_versionRec.inUse = false;
if(m_versionRec.callback != 0)
m_versionRec.callback(processId, 0, this,0);
return NO_CONTACT_WITH_CLUSTER;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
m_versionRec.inUse = false;
if(m_versionRec.callback != 0)
m_versionRec.callback(processId, 0, this,0);
return COULD_NOT_ALLOCATE_MEMORY;
}
ApiVersionReq* req = CAST_PTR(ApiVersionReq, signal->getDataPtrSend());
req->senderRef = _ownReference;
req->nodeId = processId;
signal->set(TestOrd::TraceAPI, QMGR, GSN_API_VERSION_REQ, SimpleSignal ssig;
ApiVersionReq* req = CAST_PTR(ApiVersionReq, ssig.getDataPtrSend());
req->senderRef = ss.getOwnRef();
req->nodeId = v_nodeId;
ssig.set(ss, TestOrd::TraceAPI, QMGR, GSN_API_VERSION_REQ,
ApiVersionReq::SignalLength); ApiVersionReq::SignalLength);
int do_send = 1;
NodeId nodeId;
// if(m_versionRec.callback == 0){ while (1)
Uint32 timeOut = 0; {
timeOut = 10000; if (do_send)
result = sendRecSignal(ndbnode, WAIT_VERSION, signal, true, timeOut); {
//} else { bool next;
//result = sendSignal(processId, NO_WAIT, signal, true); nodeId = 0;
// } while((next = getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)) == true &&
okToSendTo(nodeId, true) != 0);
if(!next) return NO_CONTACT_WITH_DB_NODES;
if (result == -1) { if (ss.sendSignal(nodeId, &ssig) != SEND_OK) {
m_versionRec.inUse = false;
if(m_versionRec.callback != 0)
m_versionRec.callback(processId, 0, this,0);
m_versionRec.version[processId] = 0;
return SEND_OR_RECEIVE_FAILED; return SEND_OR_RECEIVE_FAILED;
} }
do_send = 0;
m_versionRec.inUse = false;
return 0;
}
int
MgmtSrvr::version(int * stopCount, bool abort,
VersionCallback callback, void * anyData)
{
ClusterMgr::Node node;
int version;
if(m_versionRec.inUse)
return 1;
m_versionRec.callback = callback;
m_versionRec.inUse = true ;
Uint32 i;
for(i = 0; i<MAX_NODES; i++) {
if (getNodeType(i) == NDB_MGM_NODE_TYPE_MGM) {
m_versionRec.callback(i, NDB_VERSION, this,0);
}
} }
for(i = 0; i<MAX_NODES; i++) {
if (getNodeType(i) == NDB_MGM_NODE_TYPE_NDB) {
node = theFacade->theClusterMgr->getNodeInfo(i);
version = node.m_info.m_version;
if(theFacade->theClusterMgr->getNodeInfo(i).connected)
m_versionRec.callback(i, version, this,0);
else
m_versionRec.callback(i, 0, this,0);
SimpleSignal *signal = ss.waitFor();
int gsn = signal->readSignalNumber();
switch (gsn) {
case GSN_API_VERSION_CONF: {
const ApiVersionConf * const conf =
CAST_CONSTPTR(ApiVersionConf, signal->getDataPtr());
assert(conf->nodeId == v_nodeId);
version = conf->version;
return 0;
} }
case GSN_NF_COMPLETEREP:{
const NFCompleteRep * const rep =
CAST_CONSTPTR(NFCompleteRep, signal->getDataPtr());
if (rep->failedNodeId == nodeId)
do_send = 1; // retry with other node
continue;
} }
for(i = 0; i<MAX_NODES; i++) { case GSN_NODE_FAILREP:{
if (getNodeType(i) == NDB_MGM_NODE_TYPE_API) { const NodeFailRep * const rep =
return sendVersionReq(i); CAST_CONSTPTR(NodeFailRep, signal->getDataPtr());
if (NodeBitmask::get(rep->theNodes,nodeId))
do_send = 1; // retry with other node
continue;
} }
default:
report_unknown_signal(signal);
return SEND_OR_RECEIVE_FAILED;
} }
break;
} // while(1)
return 0; return 0;
} }
int /*
MgmtSrvr::stopNode(int processId, bool abort, StopCallback callback, * Common method for handeling all STOP_REQ signalling that
void * anyData) * is used by Stopping, Restarting and Single user commands
*/
int MgmtSrvr::sendSTOP_REQ(NodeId nodeId,
NodeBitmask &stoppedNodes,
Uint32 singleUserNodeId,
bool abort,
bool stop,
bool restart,
bool nostart,
bool initialStart)
{ {
if(m_stopRec.singleUserMode) stoppedNodes.clear();
return 5060;
if(m_stopRec.inUse)
return 5029;
int result; SignalSender ss(theFacade);
ss.lock(); // lock will be released on exit
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
StopReq* const stopReq = CAST_PTR(StopReq, signal->getDataPtrSend()); SimpleSignal ssig;
signal->set(TestOrd::TraceAPI, NDBCNTR, GSN_STOP_REQ, StopReq::SignalLength); StopReq* const stopReq = CAST_PTR(StopReq, ssig.getDataPtrSend());
ssig.set(ss, TestOrd::TraceAPI, NDBCNTR, GSN_STOP_REQ, StopReq::SignalLength);
stopReq->requestInfo = 0; stopReq->requestInfo = 0;
stopReq->singleuser = 0;
StopReq::setPerformRestart(stopReq->requestInfo, false);
StopReq::setSystemStop(stopReq->requestInfo, false);
StopReq::setStopAbort(stopReq->requestInfo, abort);
stopReq->apiTimeout = 5000; stopReq->apiTimeout = 5000;
stopReq->transactionTimeout = 1000; stopReq->transactionTimeout = 1000;
stopReq->readOperationTimeout = 1000; stopReq->readOperationTimeout = 1000;
stopReq->operationTimeout = 1000; stopReq->operationTimeout = 1000;
stopReq->senderData = 12; stopReq->senderData = 12;
stopReq->senderRef = _ownReference; stopReq->senderRef = ss.getOwnRef();
if (singleUserNodeId)
m_stopRec.sentCount = 1; {
m_stopRec.reply = 0; stopReq->singleuser = 1;
m_stopRec.nodeId = processId; stopReq->singleUserApi = singleUserNodeId;
m_stopRec.anyData = anyData; StopReq::setSystemStop(stopReq->requestInfo, false);
m_stopRec.callback = callback; StopReq::setPerformRestart(stopReq->requestInfo, false);
m_stopRec.inUse = true; StopReq::setStopAbort(stopReq->requestInfo, false);
if(callback == NULL){
Uint32 timeOut = 0;
timeOut += stopReq->apiTimeout;
timeOut += stopReq->transactionTimeout;
timeOut += stopReq->readOperationTimeout;
timeOut += stopReq->operationTimeout;
timeOut *= 3;
result = sendRecSignal(processId, WAIT_STOP, signal, true, timeOut);
} else {
result = sendSignal(processId, NO_WAIT, signal, true);
} }
else
if (result == -1) { {
m_stopRec.inUse = false; stopReq->singleuser = 0;
return SEND_OR_RECEIVE_FAILED; StopReq::setSystemStop(stopReq->requestInfo, stop);
StopReq::setPerformRestart(stopReq->requestInfo, restart);
StopReq::setStopAbort(stopReq->requestInfo, abort);
StopReq::setNoStart(stopReq->requestInfo, nostart);
StopReq::setInitialStart(stopReq->requestInfo, initialStart);
} }
if(callback == 0){ // send the signals
m_stopRec.inUse = false; NodeBitmask nodes;
return m_stopRec.reply; if (nodeId)
} else { {
return 0; {
int r;
if((r = okToSendTo(nodeId, true)) != 0)
return r;
} }
} {
if (ss.sendSignal(nodeId, &ssig) != SEND_OK)
int return SEND_OR_RECEIVE_FAILED;
MgmtSrvr::stop(int * stopCount, bool abort, StopCallback callback,
void * anyData)
{
if(m_stopRec.singleUserMode)
return 5060;
if(m_stopRec.inUse){
return 5029;
} }
nodes.set(nodeId);
m_stopRec.singleUserMode = false;
m_stopRec.sentCount = 0;
m_stopRec.reply = 0;
m_stopRec.nodeId = 0;
m_stopRec.anyData = anyData;
m_stopRec.callback = callback;
m_stopRec.inUse = true;
NodeId nodeId = 0;
Uint32 timeOut = 0;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)){
if(okToSendTo(nodeId, true) == 0){
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
} }
StopReq* const stopReq = CAST_PTR(StopReq, signal->getDataPtrSend());
signal->set(TestOrd::TraceAPI, NDBCNTR, GSN_STOP_REQ,
StopReq::SignalLength);
stopReq->requestInfo = 0;
stopReq->singleuser = 0;
StopReq::setSystemStop(stopReq->requestInfo, true);
StopReq::setPerformRestart(stopReq->requestInfo, false);
StopReq::setStopAbort(stopReq->requestInfo, abort);
stopReq->apiTimeout = 5000;
stopReq->transactionTimeout = 1000;
stopReq->readOperationTimeout = 1000;
stopReq->operationTimeout = 1000;
stopReq->senderData = 12;
stopReq->senderRef = _ownReference;
timeOut += stopReq->apiTimeout;
timeOut += stopReq->transactionTimeout;
timeOut += stopReq->readOperationTimeout;
timeOut += stopReq->operationTimeout;
timeOut *= 3;
m_stopRec.sentCount++;
if(callback == 0)
sendSignal(nodeId, WAIT_STOP, signal, true);
else else
sendSignal(nodeId, NO_WAIT, signal, true); while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB))
{
if(okToSendTo(nodeId, true) == 0)
{
SendStatus result = ss.sendSignal(nodeId, &ssig);
if (result == SEND_OK)
nodes.set(nodeId);
} }
} }
if(stopCount != 0) // now wait for the replies
* stopCount = m_stopRec.sentCount; int error = 0;
while (!nodes.isclear())
if(m_stopRec.sentCount > 0){ {
if(callback == 0){ SimpleSignal *signal = ss.waitFor();
theFacade->lock_mutex(); int gsn = signal->readSignalNumber();
receiveOptimisedResponse(timeOut / m_stopRec.sentCount); switch (gsn) {
} else { case GSN_STOP_REF:{
return 0; const StopRef * const ref = CAST_CONSTPTR(StopRef, signal->getDataPtr());
const NodeId nodeId = refToNode(signal->header.theSendersBlockRef);
#ifdef VM_TRACE
ndbout_c("Node %d refused stop", nodeId);
#endif
assert(nodes.get(nodeId));
nodes.clear(nodeId);
error = translateStopRef(ref->errorCode);
break;
}
case GSN_STOP_CONF:{
const StopConf * const ref = CAST_CONSTPTR(StopConf, signal->getDataPtr());
const NodeId nodeId = refToNode(signal->header.theSendersBlockRef);
#ifdef VM_TRACE
ndbout_c("Node %d single user mode", nodeId);
#endif
assert(nodes.get(nodeId));
assert(singleUserNodeId != 0);
nodes.clear(nodeId);
stoppedNodes.set(nodeId);
break;
}
case GSN_NF_COMPLETEREP:{
const NFCompleteRep * const rep =
CAST_CONSTPTR(NFCompleteRep, signal->getDataPtr());
#ifdef VM_TRACE
ndbout_c("Node %d fail completed", rep->failedNodeId);
#endif
break;
} }
case GSN_NODE_FAILREP:{
const NodeFailRep * const rep =
CAST_CONSTPTR(NodeFailRep, signal->getDataPtr());
NodeBitmask failedNodes;
failedNodes.assign(NodeBitmask::Size, rep->theNodes);
#ifdef VM_TRACE
{
ndbout << "Failed nodes:";
for (unsigned i = 0; i < 32*NodeBitmask::Size; i++)
if(failedNodes.get(i))
ndbout << " " << i;
ndbout << endl;
} }
#endif
failedNodes.bitAND(nodes);
if (!failedNodes.isclear())
{
nodes.bitANDC(failedNodes); // clear the failed nodes
if (singleUserNodeId == 0)
stoppedNodes.bitOR(failedNodes);
}
break;
}
default:
report_unknown_signal(signal);
#ifdef VM_TRACE
ndbout_c("Unknown signal %d", gsn);
#endif
return SEND_OR_RECEIVE_FAILED;
}
}
return error;
}
m_stopRec.inUse = false; /*
return m_stopRec.reply; * Stop one node
*/
int MgmtSrvr::stopNode(int nodeId, bool abort)
{
NodeBitmask nodes;
return sendSTOP_REQ(nodeId,
nodes,
0,
abort,
false,
false,
false,
false);
} }
/***************************************************************************** /*
* Single user mode * Perform system shutdown
****************************************************************************/ */
int int MgmtSrvr::stop(int * stopCount, bool abort)
MgmtSrvr::enterSingleUser(int * stopCount, Uint32 singleUserNodeId,
EnterSingleCallback callback, void * anyData)
{ {
if(m_stopRec.singleUserMode) { NodeBitmask nodes;
return 5060; int ret = sendSTOP_REQ(0,
} nodes,
0,
abort,
true,
false,
false,
false);
if (stopCount)
*stopCount = nodes.count();
return ret;
}
if (getNodeType(singleUserNodeId) != NDB_MGM_NODE_TYPE_API) { /*
* Enter single user mode on all live nodes
*/
int MgmtSrvr::enterSingleUser(int * stopCount, Uint32 singleUserNodeId)
{
if (getNodeType(singleUserNodeId) != NDB_MGM_NODE_TYPE_API)
return 5062; return 5062;
} NodeId nodeId = 0;
ClusterMgr::Node node; ClusterMgr::Node node;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB))
for(Uint32 i = 0; i<MAX_NODES; i++) { {
if (getNodeType(i) == NDB_MGM_NODE_TYPE_NDB) { node = theFacade->theClusterMgr->getNodeInfo(nodeId);
node = theFacade->theClusterMgr->getNodeInfo(i);
if((node.m_state.startLevel != NodeState::SL_STARTED) && if((node.m_state.startLevel != NodeState::SL_STARTED) &&
(node.m_state.startLevel != NodeState::SL_NOTHING)) { (node.m_state.startLevel != NodeState::SL_NOTHING))
return 5063; return 5063;
} }
} NodeBitmask nodes;
} int ret = sendSTOP_REQ(0,
nodes,
singleUserNodeId,
false,
false,
false,
false,
false);
if (stopCount)
*stopCount = nodes.count();
return ret;
}
if(m_stopRec.inUse){ /*
return 5029; * Perform node restart
} */
if(singleUserNodeId == 0) int MgmtSrvr::restartNode(int nodeId, bool nostart, bool initialStart,
return 1; bool abort)
m_stopRec.singleUserMode = true; {
m_stopRec.sentCount = 0; NodeBitmask nodes;
m_stopRec.reply = 0; return sendSTOP_REQ(nodeId,
m_stopRec.nodeId = 0; nodes,
m_stopRec.anyData = anyData; 0,
m_stopRec.callback = callback; abort,
m_stopRec.inUse = true; false,
true,
nostart,
initialStart);
}
NodeId nodeId = 0; /*
Uint32 timeOut = 0; * Perform system restart
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)){ */
if(okToSendTo(nodeId, true) == 0){
NdbApiSignal* signal = getSignal(); int MgmtSrvr::restart(bool nostart, bool initialStart,
if (signal == NULL) { bool abort, int * stopCount )
return COULD_NOT_ALLOCATE_MEMORY; {
} NodeBitmask nodes;
int ret = sendSTOP_REQ(0,
nodes,
0,
abort,
true,
true,
true,
initialStart);
StopReq* const stopReq = CAST_PTR(StopReq, signal->getDataPtrSend()); if (ret)
signal->set(TestOrd::TraceAPI, NDBCNTR, GSN_STOP_REQ, return ret;
StopReq::SignalLength);
stopReq->requestInfo = 0; if (stopCount)
stopReq->singleuser = 1; *stopCount = nodes.count();
stopReq->singleUserApi = singleUserNodeId;
StopReq::setSystemStop(stopReq->requestInfo, false);
StopReq::setPerformRestart(stopReq->requestInfo, false);
StopReq::setStopAbort(stopReq->requestInfo, false);
stopReq->apiTimeout = 5000; #ifdef VM_TRACE
stopReq->transactionTimeout = 1000; ndbout_c("Stopped %d nodes", nodes.count());
stopReq->readOperationTimeout = 1000; #endif
stopReq->operationTimeout = 1000; /**
stopReq->senderData = 12; * Here all nodes were correctly stopped,
stopReq->senderRef = _ownReference; * so we wait for all nodes to be contactable
timeOut += stopReq->apiTimeout; */
timeOut += stopReq->transactionTimeout; int waitTime = 12000;
timeOut += stopReq->readOperationTimeout; NodeId nodeId = 0;
timeOut += stopReq->operationTimeout; NDB_TICKS maxTime = NdbTick_CurrentMillisecond() + waitTime;
timeOut *= 3;
ndbout_c(" %d", nodes.get(1));
m_stopRec.sentCount++; ndbout_c(" %d", nodes.get(2));
if(callback == 0)
sendSignal(nodeId, WAIT_STOP, signal, true); while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)) {
else if (!nodes.get(nodeId))
sendSignal(nodeId, NO_WAIT, signal, true); continue;
enum ndb_mgm_node_status s;
s = NDB_MGM_NODE_STATUS_NO_CONTACT;
#ifdef VM_TRACE
ndbout_c("Waiting for %d not started", nodeId);
#endif
while (s != NDB_MGM_NODE_STATUS_NOT_STARTED && waitTime > 0) {
Uint32 startPhase = 0, version = 0, dynamicId = 0, nodeGroup = 0;
Uint32 connectCount = 0;
bool system;
status(nodeId, &s, &version, &startPhase,
&system, &dynamicId, &nodeGroup, &connectCount);
NdbSleep_MilliSleep(100);
waitTime = (maxTime - NdbTick_CurrentMillisecond());
} }
} }
if(stopCount != 0) if(nostart)
* stopCount = m_stopRec.sentCount;
if(callback == 0){
m_stopRec.inUse = false;
return 0;
// return m_stopRec.reply;
} else {
return 0; return 0;
/**
* Now we start all database nodes (i.e. we make them non-idle)
* We ignore the result we get from the start command.
*/
nodeId = 0;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)) {
if (!nodes.get(nodeId))
continue;
int result;
result = start(nodeId);
DEBUG("Starting node " << nodeId << " with result " << result);
/**
* Errors from this call are deliberately ignored.
* Maybe the user only wanted to restart a subset of the nodes.
* It is also easy for the user to check which nodes have
* started and which nodes have not.
*/
} }
m_stopRec.inUse = false; return 0;
return m_stopRec.reply;
} }
int int
MgmtSrvr::exitSingleUser(int * stopCount, bool abort, MgmtSrvr::exitSingleUser(int * stopCount, bool abort)
ExitSingleCallback callback, void * anyData)
{ {
m_stopRec.sentCount = 0;
m_stopRec.reply = 0;
m_stopRec.nodeId = 0;
m_stopRec.anyData = anyData;
m_stopRec.callback = callback;
m_stopRec.inUse = true;
NodeId nodeId = 0; NodeId nodeId = 0;
while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)){ int count = 0;
if(okToSendTo(nodeId, true) == 0){
NdbApiSignal* signal = getSignal(); SignalSender ss(theFacade);
if (signal == NULL) { ss.lock(); // lock will be released on exit
return COULD_NOT_ALLOCATE_MEMORY;
}
SimpleSignal ssig;
ResumeReq* const resumeReq = ResumeReq* const resumeReq =
CAST_PTR(ResumeReq, signal->getDataPtrSend()); CAST_PTR(ResumeReq, ssig.getDataPtrSend());
signal->set(TestOrd::TraceAPI, NDBCNTR, GSN_RESUME_REQ, ssig.set(ss,TestOrd::TraceAPI, NDBCNTR, GSN_RESUME_REQ,
StopReq::SignalLength); ResumeReq::SignalLength);
resumeReq->senderData = 12; resumeReq->senderData = 12;
resumeReq->senderRef = _ownReference; resumeReq->senderRef = ss.getOwnRef();
m_stopRec.sentCount++; while(getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)){
if(callback == 0) if(okToSendTo(nodeId, true) == 0){
sendSignal(nodeId, WAIT_STOP, signal, true); SendStatus result = ss.sendSignal(nodeId, &ssig);
else if (result == SEND_OK)
sendSignal(nodeId, NO_WAIT, signal, true); count++;
} }
} }
m_stopRec.singleUserMode = false;
if(stopCount != 0) if(stopCount != 0)
* stopCount = m_stopRec.sentCount; * stopCount = count;
if(callback == 0){
m_stopRec.inUse = false;
return m_stopRec.reply;
} else {
return 0; return 0;
}
m_stopRec.inUse = false;
return m_stopRec.reply;
} }
/***************************************************************************** /*****************************************************************************
* Status * Status
****************************************************************************/ ****************************************************************************/
...@@ -1426,7 +1130,7 @@ MgmtSrvr::exitSingleUser(int * stopCount, bool abort, ...@@ -1426,7 +1130,7 @@ MgmtSrvr::exitSingleUser(int * stopCount, bool abort,
#include <ClusterMgr.hpp> #include <ClusterMgr.hpp>
int int
MgmtSrvr::status(int processId, MgmtSrvr::status(int nodeId,
ndb_mgm_node_status * _status, ndb_mgm_node_status * _status,
Uint32 * version, Uint32 * version,
Uint32 * _phase, Uint32 * _phase,
...@@ -1435,23 +1139,20 @@ MgmtSrvr::status(int processId, ...@@ -1435,23 +1139,20 @@ MgmtSrvr::status(int processId,
Uint32 * nodegroup, Uint32 * nodegroup,
Uint32 * connectCount) Uint32 * connectCount)
{ {
if (getNodeType(processId) == NDB_MGM_NODE_TYPE_API || if (getNodeType(nodeId) == NDB_MGM_NODE_TYPE_API ||
getNodeType(processId) == NDB_MGM_NODE_TYPE_MGM) { getNodeType(nodeId) == NDB_MGM_NODE_TYPE_MGM) {
if(versionNode(processId, false,0,0) ==0) versionNode(nodeId, *version);
* version = m_versionRec.version[processId];
else
* version = 0;
} }
const ClusterMgr::Node node = const ClusterMgr::Node node =
theFacade->theClusterMgr->getNodeInfo(processId); theFacade->theClusterMgr->getNodeInfo(nodeId);
if(!node.connected){ if(!node.connected){
* _status = NDB_MGM_NODE_STATUS_NO_CONTACT; * _status = NDB_MGM_NODE_STATUS_NO_CONTACT;
return 0; return 0;
} }
if (getNodeType(processId) == NDB_MGM_NODE_TYPE_NDB) { if (getNodeType(nodeId) == NDB_MGM_NODE_TYPE_NDB) {
* version = node.m_info.m_version; * version = node.m_info.m_version;
} }
...@@ -1514,103 +1215,93 @@ MgmtSrvr::status(int processId, ...@@ -1514,103 +1215,93 @@ MgmtSrvr::status(int processId,
} }
int int
MgmtSrvr::setEventReportingLevelImpl(int processId, MgmtSrvr::setEventReportingLevelImpl(int nodeId,
const EventSubscribeReq& ll) const EventSubscribeReq& ll)
{ {
INIT_SIGNAL_SENDER(ss,nodeId);
int result = okToSendTo(processId, true); SimpleSignal ssig;
if (result != 0) {
return result;
}
NdbApiSignal signal(_ownReference);
EventSubscribeReq * dst = EventSubscribeReq * dst =
CAST_PTR(EventSubscribeReq, signal.getDataPtrSend()); CAST_PTR(EventSubscribeReq, ssig.getDataPtrSend());
ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_EVENT_SUBSCRIBE_REQ,
* dst = ll;
signal.set(TestOrd::TraceAPI, CMVMI, GSN_EVENT_SUBSCRIBE_REQ,
EventSubscribeReq::SignalLength); EventSubscribeReq::SignalLength);
*dst = ll;
if (ss.sendSignal(nodeId, &ssig) != SEND_OK) {
return SEND_OR_RECEIVE_FAILED;
}
theFacade->lock_mutex(); #if 0
send(&signal, processId, NODE_TYPE_DB); while (1)
theFacade->unlock_mutex(); {
SimpleSignal *signal = ss.waitFor();
int gsn = signal->readSignalNumber();
switch (gsn) {
case GSN_EVENT_SUBSCRIBE_CONF:{
break;
}
case GSN_EVENT_SUBSCRIBE_REF:{
return SEND_OR_RECEIVE_FAILED;
}
case GSN_NF_COMPLETEREP:{
const NFCompleteRep * const rep =
CAST_CONSTPTR(NFCompleteRep, signal->getDataPtr());
if (rep->failedNodeId == nodeId)
return SEND_OR_RECEIVE_FAILED;
break;
}
case GSN_NODE_FAILREP:{
const NodeFailRep * const rep =
CAST_CONSTPTR(NodeFailRep, signal->getDataPtr());
if (NodeBitmask::get(rep->theNodes,nodeId))
return SEND_OR_RECEIVE_FAILED;
break;
}
default:
report_unknown_signal(signal);
return SEND_OR_RECEIVE_FAILED;
}
}
#endif
return 0; return 0;
} }
//**************************************************************************** //****************************************************************************
//**************************************************************************** //****************************************************************************
int int
MgmtSrvr::setNodeLogLevelImpl(int processId, const SetLogLevelOrd & ll) MgmtSrvr::setNodeLogLevelImpl(int nodeId, const SetLogLevelOrd & ll)
{ {
int result = okToSendTo(processId, true); INIT_SIGNAL_SENDER(ss,nodeId);
if (result != 0) {
return result;
}
NdbApiSignal signal(_ownReference);
SetLogLevelOrd * dst = CAST_PTR(SetLogLevelOrd, signal.getDataPtrSend());
* dst = ll; SimpleSignal ssig;
ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_SET_LOGLEVELORD,
signal.set(TestOrd::TraceAPI, CMVMI, GSN_SET_LOGLEVELORD,
SetLogLevelOrd::SignalLength); SetLogLevelOrd::SignalLength);
SetLogLevelOrd* const dst = CAST_PTR(SetLogLevelOrd, ssig.getDataPtrSend());
*dst = ll;
theFacade->lock_mutex(); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
theFacade->sendSignalUnCond(&signal, processId);
theFacade->unlock_mutex();
return 0;
}
int
MgmtSrvr::send(NdbApiSignal* signal, Uint32 node, Uint32 node_type){
Uint32 max = (node == 0) ? MAX_NODES : node + 1;
for(; node < max; node++){
while(nodeTypes[node] != (int)node_type && node < max) node++;
if(nodeTypes[node] != (int)node_type)
break;
theFacade->sendSignalUnCond(signal, node);
}
return 0;
} }
//**************************************************************************** //****************************************************************************
//**************************************************************************** //****************************************************************************
int int
MgmtSrvr::insertError(int processId, int errorNo) MgmtSrvr::insertError(int nodeId, int errorNo)
{ {
if (errorNo < 0) { if (errorNo < 0) {
return INVALID_ERROR_NUMBER; return INVALID_ERROR_NUMBER;
} }
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
TamperOrd* const tamperOrd = CAST_PTR(TamperOrd, signal->getDataPtrSend()); SimpleSignal ssig;
tamperOrd->errorNo = errorNo; ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_TAMPER_ORD,
signal->set(TestOrd::TraceAPI, CMVMI, GSN_TAMPER_ORD,
TamperOrd::SignalLength); TamperOrd::SignalLength);
TamperOrd* const tamperOrd = CAST_PTR(TamperOrd, ssig.getDataPtrSend());
tamperOrd->errorNo = errorNo;
result = sendSignal(processId, NO_WAIT, signal, true); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
...@@ -1619,37 +1310,23 @@ MgmtSrvr::insertError(int processId, int errorNo) ...@@ -1619,37 +1310,23 @@ MgmtSrvr::insertError(int processId, int errorNo)
//**************************************************************************** //****************************************************************************
int int
MgmtSrvr::setTraceNo(int processId, int traceNo) MgmtSrvr::setTraceNo(int nodeId, int traceNo)
{ {
if (traceNo < 0) { if (traceNo < 0) {
return INVALID_TRACE_NUMBER; return INVALID_TRACE_NUMBER;
} }
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
TestOrd* const testOrd = CAST_PTR(TestOrd, signal->getDataPtrSend()); SimpleSignal ssig;
ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength);
TestOrd* const testOrd = CAST_PTR(TestOrd, ssig.getDataPtrSend());
testOrd->clear(); testOrd->clear();
// Assume TRACE command causes toggling. Not really defined... ? TODO // Assume TRACE command causes toggling. Not really defined... ? TODO
testOrd->setTraceCommand(TestOrd::Toggle, testOrd->setTraceCommand(TestOrd::Toggle,
(TestOrd::TraceSpecification)traceNo); (TestOrd::TraceSpecification)traceNo);
signal->set(TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength);
result = sendSignal(processId, NO_WAIT, signal, true); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
//**************************************************************************** //****************************************************************************
...@@ -1668,14 +1345,10 @@ MgmtSrvr::getBlockNumber(const BaseString &blockName) ...@@ -1668,14 +1345,10 @@ MgmtSrvr::getBlockNumber(const BaseString &blockName)
//**************************************************************************** //****************************************************************************
int int
MgmtSrvr::setSignalLoggingMode(int processId, LogMode mode, MgmtSrvr::setSignalLoggingMode(int nodeId, LogMode mode,
const Vector<BaseString>& blocks) const Vector<BaseString>& blocks)
{ {
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
// Convert from MgmtSrvr format... // Convert from MgmtSrvr format...
...@@ -1710,12 +1383,10 @@ MgmtSrvr::setSignalLoggingMode(int processId, LogMode mode, ...@@ -1710,12 +1383,10 @@ MgmtSrvr::setSignalLoggingMode(int processId, LogMode mode,
return -1; return -1;
} }
NdbApiSignal* signal = getSignal(); SimpleSignal ssig;
if (signal == NULL) { ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength);
return COULD_NOT_ALLOCATE_MEMORY;
}
TestOrd* const testOrd = CAST_PTR(TestOrd, signal->getDataPtrSend()); TestOrd* const testOrd = CAST_PTR(TestOrd, ssig.getDataPtrSend());
testOrd->clear(); testOrd->clear();
if (blocks.size() == 0 || blocks[0] == "ALL") { if (blocks.size() == 0 || blocks[0] == "ALL") {
...@@ -1725,78 +1396,44 @@ MgmtSrvr::setSignalLoggingMode(int processId, LogMode mode, ...@@ -1725,78 +1396,44 @@ MgmtSrvr::setSignalLoggingMode(int processId, LogMode mode,
for(unsigned i = 0; i < blocks.size(); i++){ for(unsigned i = 0; i < blocks.size(); i++){
int blockNumber = getBlockNumber(blocks[i]); int blockNumber = getBlockNumber(blocks[i]);
if (blockNumber == -1) { if (blockNumber == -1) {
releaseSignal(signal);
return INVALID_BLOCK_NAME; return INVALID_BLOCK_NAME;
} }
testOrd->addSignalLoggerCommand(blockNumber, command, logSpec); testOrd->addSignalLoggerCommand(blockNumber, command, logSpec);
} // for } // for
} // else } // else
signal->set(TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
result = sendSignal(processId, NO_WAIT, signal, true);
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
/***************************************************************************** /*****************************************************************************
* Signal tracing * Signal tracing
*****************************************************************************/ *****************************************************************************/
int MgmtSrvr::startSignalTracing(int processId) int MgmtSrvr::startSignalTracing(int nodeId)
{ {
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
SimpleSignal ssig;
ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength);
TestOrd* const testOrd = CAST_PTR(TestOrd, signal->getDataPtrSend()); TestOrd* const testOrd = CAST_PTR(TestOrd, ssig.getDataPtrSend());
testOrd->clear(); testOrd->clear();
testOrd->setTestCommand(TestOrd::On); testOrd->setTestCommand(TestOrd::On);
signal->set(TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
result = sendSignal(processId, NO_WAIT, signal, true);
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
int int
MgmtSrvr::stopSignalTracing(int processId) MgmtSrvr::stopSignalTracing(int nodeId)
{ {
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal(); SimpleSignal ssig;
if (signal == NULL) { ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength);
return COULD_NOT_ALLOCATE_MEMORY; TestOrd* const testOrd = CAST_PTR(TestOrd, ssig.getDataPtrSend());
}
TestOrd* const testOrd = CAST_PTR(TestOrd, signal->getDataPtrSend());
testOrd->clear(); testOrd->clear();
testOrd->setTestCommand(TestOrd::Off); testOrd->setTestCommand(TestOrd::Off);
signal->set(TestOrd::TraceAPI, CMVMI, GSN_TEST_ORD, TestOrd::SignalLength); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
result = sendSignal(processId, NO_WAIT, signal, true);
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
...@@ -1805,7 +1442,7 @@ MgmtSrvr::stopSignalTracing(int processId) ...@@ -1805,7 +1442,7 @@ MgmtSrvr::stopSignalTracing(int processId)
*****************************************************************************/ *****************************************************************************/
int int
MgmtSrvr::dumpState(int processId, const char* args) MgmtSrvr::dumpState(int nodeId, const char* args)
{ {
// Convert the space separeted args // Convert the space separeted args
// string to an int array // string to an int array
...@@ -1827,29 +1464,20 @@ MgmtSrvr::dumpState(int processId, const char* args) ...@@ -1827,29 +1464,20 @@ MgmtSrvr::dumpState(int processId, const char* args)
} }
} }
return dumpState(processId, args_array, numArgs); return dumpState(nodeId, args_array, numArgs);
} }
int int
MgmtSrvr::dumpState(int processId, const Uint32 args[], Uint32 no) MgmtSrvr::dumpState(int nodeId, const Uint32 args[], Uint32 no)
{ {
int result; INIT_SIGNAL_SENDER(ss,nodeId);
result = okToSendTo(processId, true);
if (result != 0) {
return result;
}
NdbApiSignal* signal = getSignal();
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
const Uint32 len = no > 25 ? 25 : no; const Uint32 len = no > 25 ? 25 : no;
SimpleSignal ssig;
DumpStateOrd * const dumpOrd = DumpStateOrd * const dumpOrd =
CAST_PTR(DumpStateOrd, signal->getDataPtrSend()); CAST_PTR(DumpStateOrd, ssig.getDataPtrSend());
signal->set(TestOrd::TraceAPI, CMVMI, GSN_DUMP_STATE_ORD, len); ssig.set(ss,TestOrd::TraceAPI, CMVMI, GSN_DUMP_STATE_ORD, len);
for(Uint32 i = 0; i<25; i++){ for(Uint32 i = 0; i<25; i++){
if (i < len) if (i < len)
dumpOrd->args[i] = args[i]; dumpOrd->args[i] = args[i];
...@@ -1857,12 +1485,7 @@ MgmtSrvr::dumpState(int processId, const Uint32 args[], Uint32 no) ...@@ -1857,12 +1485,7 @@ MgmtSrvr::dumpState(int processId, const Uint32 args[], Uint32 no)
dumpOrd->args[i] = 0; dumpOrd->args[i] = 0;
} }
result = sendSignal(processId, NO_WAIT, signal, true); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
...@@ -1895,42 +1518,18 @@ MgmtSrvr::handleReceivedSignal(NdbApiSignal* signal) ...@@ -1895,42 +1518,18 @@ MgmtSrvr::handleReceivedSignal(NdbApiSignal* signal)
int gsn = signal->readSignalNumber(); int gsn = signal->readSignalNumber();
switch (gsn) { switch (gsn) {
case GSN_API_VERSION_CONF: {
if (theWaitState == WAIT_VERSION) {
const ApiVersionConf * const conf =
CAST_CONSTPTR(ApiVersionConf, signal->getDataPtr());
if(m_versionRec.callback != 0)
m_versionRec.callback(conf->nodeId, conf->version, this, 0);
else {
m_versionRec.version[conf->nodeId]=conf->version;
}
} else return;
theWaitState = NO_WAIT;
}
break;
case GSN_EVENT_SUBSCRIBE_CONF: case GSN_EVENT_SUBSCRIBE_CONF:
break; break;
case GSN_EVENT_SUBSCRIBE_REF:
break;
case GSN_EVENT_REP: case GSN_EVENT_REP:
eventReport(refToNode(signal->theSendersBlockRef), signal->getDataPtr()); eventReport(refToNode(signal->theSendersBlockRef), signal->getDataPtr());
break; break;
case GSN_STOP_REF:{ case GSN_NF_COMPLETEREP:
const StopRef * const ref = CAST_CONSTPTR(StopRef, signal->getDataPtr());
const NodeId nodeId = refToNode(signal->theSendersBlockRef);
handleStopReply(nodeId, ref->errorCode);
return;
}
break; break;
case GSN_NODE_FAILREP:
case GSN_MGM_LOCK_CONFIG_REP:
case GSN_MGM_LOCK_CONFIG_REQ:
case GSN_MGM_UNLOCK_CONFIG_REP:
case GSN_MGM_UNLOCK_CONFIG_REQ: {
m_signalRecvQueue.receive(new NdbApiSignal(*signal));
break; break;
}
default: default:
g_eventLogger.error("Unknown signal received. SignalNumber: " g_eventLogger.error("Unknown signal received. SignalNumber: "
...@@ -1945,75 +1544,6 @@ MgmtSrvr::handleReceivedSignal(NdbApiSignal* signal) ...@@ -1945,75 +1544,6 @@ MgmtSrvr::handleReceivedSignal(NdbApiSignal* signal)
} }
} }
/**
* A database node was either stopped or there was some error
*/
void
MgmtSrvr::handleStopReply(NodeId nodeId, Uint32 errCode)
{
/**
* If we are in single user mode and get a stop reply from a
* DB node, then we have had a node crash.
* If all DB nodes are gone, and we are still in single user mode,
* the set m_stopRec.singleUserMode = false;
*/
if(m_stopRec.singleUserMode) {
ClusterMgr::Node node;
bool failure = true;
for(Uint32 i = 0; i<MAX_NODES; i++) {
if (getNodeType(i) == NDB_MGM_NODE_TYPE_NDB) {
node = theFacade->theClusterMgr->getNodeInfo(i);
if((node.m_state.startLevel == NodeState::SL_NOTHING))
failure = true;
else
failure = false;
}
}
if(failure) {
m_stopRec.singleUserMode = false;
}
}
if(m_stopRec.inUse == false)
return;
if(!(m_stopRec.nodeId == 0 || m_stopRec.nodeId == nodeId))
goto error;
if(m_stopRec.sentCount <= 0)
goto error;
if(!(theWaitState == WAIT_STOP || m_stopRec.callback != 0))
goto error;
if(errCode != 0)
m_stopRec.reply = translateStopRef(errCode);
m_stopRec.sentCount --;
if(m_stopRec.sentCount == 0){
if(theWaitState == WAIT_STOP){
theWaitState = NO_WAIT;
NdbCondition_Signal(theMgmtWaitForResponseCondPtr);
return;
}
if(m_stopRec.callback != 0){
m_stopRec.inUse = false;
StopCallback callback = m_stopRec.callback;
m_stopRec.callback = NULL;
(* callback)(m_stopRec.nodeId,
m_stopRec.anyData,
m_stopRec.reply);
return;
}
}
return;
error:
if(errCode != 0){
g_eventLogger.error("Unexpected signal received. SignalNumber: %i from %d",
GSN_STOP_REF, nodeId);
}
}
void void
MgmtSrvr::handleStatus(NodeId nodeId, bool alive, bool nfComplete) MgmtSrvr::handleStatus(NodeId nodeId, bool alive, bool nfComplete)
{ {
...@@ -2027,16 +1557,8 @@ MgmtSrvr::handleStatus(NodeId nodeId, bool alive, bool nfComplete) ...@@ -2027,16 +1557,8 @@ MgmtSrvr::handleStatus(NodeId nodeId, bool alive, bool nfComplete)
theData[0] = EventReport::Disconnected; theData[0] = EventReport::Disconnected;
if(nfComplete) if(nfComplete)
{ {
handleStopReply(nodeId, 0);
DBUG_VOID_RETURN; DBUG_VOID_RETURN;
} }
if(theWaitNode == nodeId &&
theWaitState != NO_WAIT && theWaitState != WAIT_STOP)
{
theWaitState = WAIT_NODEFAILURE;
NdbCondition_Signal(theMgmtWaitForResponseCondPtr);
}
} }
eventReport(_ownNodeId, theData); eventReport(_ownNodeId, theData);
...@@ -2381,6 +1903,7 @@ MgmtSrvr::eventReport(NodeId nodeId, const Uint32 * theData) ...@@ -2381,6 +1903,7 @@ MgmtSrvr::eventReport(NodeId nodeId, const Uint32 * theData)
/*************************************************************************** /***************************************************************************
* Backup * Backup
***************************************************************************/ ***************************************************************************/
int int
MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted) MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted)
{ {
...@@ -2395,7 +1918,6 @@ MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted) ...@@ -2395,7 +1918,6 @@ MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted)
if(!next) return NO_CONTACT_WITH_DB_NODES; if(!next) return NO_CONTACT_WITH_DB_NODES;
SimpleSignal ssig; SimpleSignal ssig;
BackupReq* req = CAST_PTR(BackupReq, ssig.getDataPtrSend()); BackupReq* req = CAST_PTR(BackupReq, ssig.getDataPtrSend());
ssig.set(ss, TestOrd::TraceAPI, BACKUP, GSN_BACKUP_REQ, ssig.set(ss, TestOrd::TraceAPI, BACKUP, GSN_BACKUP_REQ,
BackupReq::SignalLength); BackupReq::SignalLength);
...@@ -2410,8 +1932,7 @@ MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted) ...@@ -2410,8 +1932,7 @@ MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted)
while (1) { while (1) {
if (do_send) if (do_send)
{ {
SendStatus result = ss.sendSignal(nodeId, &ssig); if (ss.sendSignal(nodeId, &ssig) != SEND_OK) {
if (result != SEND_OK) {
return SEND_OR_RECEIVE_FAILED; return SEND_OR_RECEIVE_FAILED;
} }
if (waitCompleted == 0) if (waitCompleted == 0)
...@@ -2513,13 +2034,13 @@ MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted) ...@@ -2513,13 +2034,13 @@ MgmtSrvr::startBackup(Uint32& backupId, int waitCompleted)
return SEND_OR_RECEIVE_FAILED; return SEND_OR_RECEIVE_FAILED;
} }
} }
return 0;
} }
int int
MgmtSrvr::abortBackup(Uint32 backupId) MgmtSrvr::abortBackup(Uint32 backupId)
{ {
SignalSender ss(theFacade);
bool next; bool next;
NodeId nodeId = 0; NodeId nodeId = 0;
while((next = getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)) == true && while((next = getNextNodeId(&nodeId, NDB_MGM_NODE_TYPE_NDB)) == true &&
...@@ -2529,25 +2050,17 @@ MgmtSrvr::abortBackup(Uint32 backupId) ...@@ -2529,25 +2050,17 @@ MgmtSrvr::abortBackup(Uint32 backupId)
return NO_CONTACT_WITH_DB_NODES; return NO_CONTACT_WITH_DB_NODES;
} }
NdbApiSignal* signal = getSignal(); SimpleSignal ssig;
if (signal == NULL) {
return COULD_NOT_ALLOCATE_MEMORY;
}
AbortBackupOrd* ord = CAST_PTR(AbortBackupOrd, signal->getDataPtrSend()); AbortBackupOrd* ord = CAST_PTR(AbortBackupOrd, ssig.getDataPtrSend());
signal->set(TestOrd::TraceAPI, BACKUP, GSN_ABORT_BACKUP_ORD, ssig.set(ss, TestOrd::TraceAPI, BACKUP, GSN_ABORT_BACKUP_ORD,
AbortBackupOrd::SignalLength); AbortBackupOrd::SignalLength);
ord->requestType = AbortBackupOrd::ClientAbort; ord->requestType = AbortBackupOrd::ClientAbort;
ord->senderData = 19; ord->senderData = 19;
ord->backupId = backupId; ord->backupId = backupId;
int result = sendSignal(nodeId, NO_WAIT, signal, true); return ss.sendSignal(nodeId, &ssig) == SEND_OK ? 0 : SEND_OR_RECEIVE_FAILED;
if (result == -1) {
return SEND_OR_RECEIVE_FAILED;
}
return 0;
} }
...@@ -2721,11 +2234,6 @@ MgmtSrvr::setDbParameter(int node, int param, const char * value, ...@@ -2721,11 +2234,6 @@ MgmtSrvr::setDbParameter(int node, int param, const char * value,
return 0; return 0;
} }
template class Vector<SigMatch>;
#if __SUNPRO_CC != 0x560
template bool SignalQueue::waitFor<SigMatch>(Vector<SigMatch>&, SigMatch**, NdbApiSignal**, unsigned);
#endif
template class MutexVector<unsigned short>; template class MutexVector<unsigned short>;
template class MutexVector<Ndb_mgmd_event_service::Event_listener>; template class MutexVector<Ndb_mgmd_event_service::Event_listener>;
template class MutexVector<EventSubscribeReq>; template class MutexVector<EventSubscribeReq>;
...@@ -22,11 +22,11 @@ ...@@ -22,11 +22,11 @@
#include <NdbCondition.h> #include <NdbCondition.h>
#include <mgmapi.h> #include <mgmapi.h>
#include <NdbTCP.h>
#include <ConfigRetriever.hpp>
#include <Vector.hpp> #include <Vector.hpp>
#include <NodeBitmask.hpp> #include <NodeBitmask.hpp>
#include <signaldata/ManagementServer.hpp> #include <signaldata/ManagementServer.hpp>
#include "SignalQueue.hpp"
#include <ndb_version.h> #include <ndb_version.h>
#include <EventLogger.hpp> #include <EventLogger.hpp>
#include <signaldata/EventSubscribeReq.hpp> #include <signaldata/EventSubscribeReq.hpp>
...@@ -213,17 +213,6 @@ public: ...@@ -213,17 +213,6 @@ public:
// COULD_NOT_ALLOCATE_MEMORY, SEND_OR_RECEIVE_FAILED // COULD_NOT_ALLOCATE_MEMORY, SEND_OR_RECEIVE_FAILED
typedef void (* StopCallback)(int nodeId, void * anyData, int errorCode);
typedef void (* VersionCallback)(int nodeId, int version,
void * anyData, int errorCode);
typedef void (* EnterSingleCallback)(int nodeId, void * anyData,
int errorCode);
typedef void (* ExitSingleCallback)(int nodeId, void * anyData,
int errorCode);
/** /**
* Lock configuration * Lock configuration
*/ */
...@@ -272,12 +261,12 @@ public: ...@@ -272,12 +261,12 @@ public:
* @param processId: Id of the DB process to stop * @param processId: Id of the DB process to stop
* @return 0 if succeeded, otherwise: as stated above, plus: * @return 0 if succeeded, otherwise: as stated above, plus:
*/ */
int stopNode(int nodeId, bool abort = false, StopCallback = 0, void *any= 0); int stopNode(int nodeId, bool abort = false);
/** /**
* Stop the system * Stop the system
*/ */
int stop(int * cnt = 0, bool abort = false, StopCallback = 0, void *any = 0); int stop(int * cnt = 0, bool abort = false);
/** /**
* print version info about a node * print version info about a node
...@@ -285,27 +274,18 @@ public: ...@@ -285,27 +274,18 @@ public:
* @param processId: Id of the DB process to stop * @param processId: Id of the DB process to stop
* @return 0 if succeeded, otherwise: as stated above, plus: * @return 0 if succeeded, otherwise: as stated above, plus:
*/ */
int versionNode(int nodeId, bool abort = false, int versionNode(int nodeId, Uint32 &version);
VersionCallback = 0, void *any= 0);
/**
* print version info about all node in the system
*/
int version(int * cnt = 0, bool abort = false,
VersionCallback = 0, void *any = 0);
/** /**
* Maintenance on the system * Maintenance on the system
*/ */
int enterSingleUser(int * cnt = 0, Uint32 singleuserNodeId = 0, int enterSingleUser(int * cnt = 0, Uint32 singleuserNodeId = 0);
EnterSingleCallback = 0, void *any = 0);
/** /**
* Resume from maintenance on the system * Resume from maintenance on the system
*/ */
int exitSingleUser(int * cnt = 0, bool abort = false, int exitSingleUser(int * cnt = 0, bool abort = false);
ExitSingleCallback = 0, void *any = 0);
/** /**
* Start DB process. * Start DB process.
...@@ -319,15 +299,14 @@ public: ...@@ -319,15 +299,14 @@ public:
* @param processId: Id of the DB process to start * @param processId: Id of the DB process to start
*/ */
int restartNode(int processId, bool nostart, bool initialStart, int restartNode(int processId, bool nostart, bool initialStart,
bool abort = false, bool abort = false);
StopCallback = 0, void * anyData = 0);
/** /**
* Restart the system * Restart the system
*/ */
int restart(bool nostart, bool initialStart, int restart(bool nostart, bool initialStart,
bool abort = false, bool abort = false,
int * stopCount = 0, StopCallback = 0, void * anyData = 0); int * stopCount = 0);
struct BackupEvent { struct BackupEvent {
enum Event { enum Event {
...@@ -518,6 +497,16 @@ private: ...@@ -518,6 +497,16 @@ private:
//************************************************************************** //**************************************************************************
int setEventReportingLevel(int processId, LogLevel::EventCategory, Uint32); int setEventReportingLevel(int processId, LogLevel::EventCategory, Uint32);
void set_common_stop_req_params(void *stopReq);
int sendSTOP_REQ(NodeId nodeId,
NodeBitmask &stoppedNodes,
Uint32 singleUserNodeId,
bool abort,
bool stop,
bool restart,
bool nostart,
bool initialStart);
/** /**
* Check if it is possible to send a signal to a (DB) process * Check if it is possible to send a signal to a (DB) process
...@@ -608,60 +597,9 @@ private: ...@@ -608,60 +597,9 @@ private:
enum WaitSignalType { enum WaitSignalType {
NO_WAIT, // We don't expect to receive any signal NO_WAIT, // We don't expect to receive any signal
WAIT_SET_VAR, // Accept SET_VAR_CONF and SET_VAR_REF WAIT_SET_VAR, // Accept SET_VAR_CONF and SET_VAR_REF
WAIT_SUBSCRIBE_CONF, // Accept event subscription confirmation WAIT_SUBSCRIBE_CONF // Accept event subscription confirmation
WAIT_STOP,
WAIT_BACKUP_STARTED,
WAIT_BACKUP_COMPLETED,
WAIT_VERSION,
WAIT_NODEFAILURE
}; };
/**
* Get an unused signal
* @return A signal if succeeded, NULL otherwise
*/
NdbApiSignal* getSignal();
/**
* Add a signal to the list of unused signals
* @param signal: The signal to add
*/
void releaseSignal(NdbApiSignal* signal);
/**
* Remove a signal from the list of unused signals and delete
* the memory for it.
*/
void freeSignal();
/**
* Send a signal
* @param processId: Id of the receiver process
* @param waitState: State denoting a set of signals we accept to receive
* @param signal: The signal to send
* @return 0 if succeeded, -1 otherwise
*/
int sendSignal(Uint16 processId, WaitSignalType waitState,
NdbApiSignal* signal, bool force = false);
/**
* Send a signal and wait for an answer signal
* @param processId: Id of the receiver process
* @param waitState: State denoting a set of signals we accept to receive.
* @param signal: The signal to send
* @return 0 if succeeded, -1 otherwise (for example failed to send or
* failed to receive expected signal).
*/
int sendRecSignal(Uint16 processId, WaitSignalType waitState,
NdbApiSignal* signal, bool force = false,
int waitTime = WAIT_FOR_RESPONSE_TIMEOUT);
/**
* Wait for a signal to arrive.
* @return 0 if signal arrived, -1 otherwise
*/
int receiveOptimisedResponse(int waitTime);
/** /**
* This function is called from "outside" of MgmtSrvr * This function is called from "outside" of MgmtSrvr
* when a signal is sent to MgmtSrvr. * when a signal is sent to MgmtSrvr.
...@@ -708,31 +646,7 @@ private: ...@@ -708,31 +646,7 @@ private:
class TransporterFacade * theFacade; class TransporterFacade * theFacade;
class SignalQueue m_signalRecvQueue; int sendVersionReq( int processId, Uint32 &version);
struct StopRecord {
StopRecord(){ inUse = false; callback = 0; singleUserMode = false;}
bool inUse;
bool singleUserMode;
int sentCount;
int reply;
int nodeId;
void * anyData;
StopCallback callback;
};
StopRecord m_stopRec;
struct VersionRecord {
VersionRecord(){ inUse = false; callback = 0;}
bool inUse;
Uint32 version[MAX_NODES];
VersionCallback callback;
};
VersionRecord m_versionRec;
int sendVersionReq( int processId);
void handleStopReply(NodeId nodeId, Uint32 errCode);
int translateStopRef(Uint32 errCode); int translateStopRef(Uint32 errCode);
bool _isStopThread; bool _isStopThread;
...@@ -753,14 +667,8 @@ private: ...@@ -753,14 +667,8 @@ private:
static void *logLevelThread_C(void *); static void *logLevelThread_C(void *);
void logLevelThreadRun(); void logLevelThreadRun();
struct NdbThread *m_signalRecvThread;
static void *signalRecvThread_C(void *);
void signalRecvThreadRun();
Config *_props; Config *_props;
int send(class NdbApiSignal* signal, Uint32 node, Uint32 node_type);
ConfigRetriever *m_config_retriever; ConfigRetriever *m_config_retriever;
}; };
......
...@@ -23,6 +23,8 @@ ...@@ -23,6 +23,8 @@
#include <ConfigRetriever.hpp> #include <ConfigRetriever.hpp>
#include <ndb_version.h> #include <ndb_version.h>
#if 0 // code must be rewritten to use SignalSender
void void
MgmtSrvr::handle_MGM_LOCK_CONFIG_REQ(NdbApiSignal *signal) { MgmtSrvr::handle_MGM_LOCK_CONFIG_REQ(NdbApiSignal *signal) {
NodeId sender = refToNode(signal->theSendersBlockRef); NodeId sender = refToNode(signal->theSendersBlockRef);
...@@ -221,6 +223,8 @@ MgmtSrvr::unlockConf(bool commit) { ...@@ -221,6 +223,8 @@ MgmtSrvr::unlockConf(bool commit) {
return result; return result;
} }
#endif // code must be rewritten to use SignalSender
/** /**
* Commit the new configuration * Commit the new configuration
*/ */
......
...@@ -20,123 +20,3 @@ ...@@ -20,123 +20,3 @@
// Some kind of reuse should be preferred. // Some kind of reuse should be preferred.
//****************************************************************************** //******************************************************************************
#include "MgmtSrvr.hpp"
#include <NdbApiSignal.hpp>
#include <NdbTick.h>
NdbApiSignal*
MgmtSrvr::getSignal()
{
NdbApiSignal* tSignal;
tSignal = theSignalIdleList;
if (tSignal != NULL){
NdbApiSignal* tSignalNext = tSignal->next();
tSignal->next(NULL);
theSignalIdleList = tSignalNext;
return tSignal;
} else
{
tSignal = new NdbApiSignal(_ownReference);
if (tSignal != NULL)
tSignal->next(NULL);
}
return tSignal;
}
void
MgmtSrvr::releaseSignal(NdbApiSignal* aSignal)
{
aSignal->next(theSignalIdleList);
theSignalIdleList = aSignal;
}
void
MgmtSrvr::freeSignal()
{
NdbApiSignal* tSignal = theSignalIdleList;
theSignalIdleList = tSignal->next();
delete tSignal;
}
int
MgmtSrvr::sendSignal(Uint16 aNodeId,
WaitSignalType aWaitState,
NdbApiSignal* aSignal,
bool force)
{
int tReturnCode;
theFacade->lock_mutex();
if(force){
tReturnCode = theFacade->sendSignalUnCond(aSignal,
aNodeId);
} else {
tReturnCode = theFacade->sendSignal(aSignal,
aNodeId);
}
releaseSignal(aSignal);
if (tReturnCode == -1) {
theFacade->unlock_mutex();
return -1;
}
theWaitState = aWaitState;
theFacade->unlock_mutex();
return 0;
}
int
MgmtSrvr::sendRecSignal(Uint16 aNodeId,
WaitSignalType aWaitState,
NdbApiSignal* aSignal,
bool force,
int waitTime)
{
int tReturnCode;
theFacade->lock_mutex();
if(force){
tReturnCode = theFacade->sendSignalUnCond(aSignal, aNodeId);
} else {
tReturnCode = theFacade->sendSignalUnCond(aSignal, aNodeId);
}
releaseSignal(aSignal);
if (tReturnCode == -1) {
theFacade->unlock_mutex();
return -1;
}
theWaitState = aWaitState;
theWaitNode = aNodeId;
return receiveOptimisedResponse(waitTime);
}
int
MgmtSrvr::receiveOptimisedResponse(int waitTime)
{
int tResultCode;
theFacade->checkForceSend(_blockNumber);
NDB_TICKS maxTime = NdbTick_CurrentMillisecond() + waitTime;
while (theWaitState != NO_WAIT && theWaitState != WAIT_NODEFAILURE
&& waitTime > 0) {
NdbCondition_WaitTimeout(theMgmtWaitForResponseCondPtr,
theFacade->theMutexPtr,
waitTime);
if(theWaitState == NO_WAIT || theWaitState == WAIT_NODEFAILURE)
break;
waitTime = (maxTime - NdbTick_CurrentMillisecond());
}//while
if(theWaitState == NO_WAIT) {
tResultCode = 0;
} else {
tResultCode = -1;
}
theFacade->unlock_mutex();
return tResultCode;
}
...@@ -1203,7 +1203,11 @@ MgmApiSession::setLogFilter(Parser_t::Context &ctx, ...@@ -1203,7 +1203,11 @@ MgmApiSession::setLogFilter(Parser_t::Context &ctx,
void void
MgmApiSession::configLock(Parser_t::Context &, MgmApiSession::configLock(Parser_t::Context &,
Properties const &) { Properties const &) {
#if 0 // not implemented
int ret = m_mgmsrv.lockConf(); int ret = m_mgmsrv.lockConf();
#else
int ret = -1;
#endif
m_output->println("config lock reply"); m_output->println("config lock reply");
m_output->println("result: %d", ret); m_output->println("result: %d", ret);
m_output->println(""); m_output->println("");
...@@ -1214,7 +1218,11 @@ MgmApiSession::configUnlock(Parser_t::Context &, ...@@ -1214,7 +1218,11 @@ MgmApiSession::configUnlock(Parser_t::Context &,
Properties const &args) { Properties const &args) {
Uint32 commit; Uint32 commit;
args.get("commit", &commit); args.get("commit", &commit);
#if 0 // not implemented
int ret = m_mgmsrv.unlockConf(commit == 1); int ret = m_mgmsrv.unlockConf(commit == 1);
#else
int ret = -1;
#endif
m_output->println("config unlock reply"); m_output->println("config unlock reply");
m_output->println("result: %d", ret); m_output->println("result: %d", ret);
m_output->println(""); m_output->println("");
......
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