void TRI_SetProgressReplicationApplier (TRI_replication_applier_t* applier,
char const* msg,
bool lock) {
char* copy;
copy = TRI_DuplicateStringZ(TRI_CORE_MEM_ZONE, msg);
if (copy == NULL) {
return;
}
if (lock) {
TRI_WriteLockReadWriteLock(&applier->_statusLock);
}
if (applier->_state._progressMsg != NULL) {
TRI_FreeString(TRI_CORE_MEM_ZONE, applier->_state._progressMsg);
}
applier->_state._progressMsg = copy;
// write time in buffer
TRI_GetTimeStampReplication(applier->_state._progressTime, sizeof(applier->_state._progressTime) - 1);
if (lock) {
TRI_WriteUnlockReadWriteLock(&applier->_statusLock);
}
}
static int StopApplier (TRI_replication_applier_t* applier,
bool resetError) {
TRI_replication_applier_state_t* state;
state = &applier->_state;
if (! state->_active) {
return TRI_ERROR_INTERNAL;
}
state->_active = false;
SetTerminateFlag(applier, true);
TRI_SetProgressReplicationApplier(applier, "applier stopped", false);
if (resetError) {
if (state->_lastError._msg != NULL) {
TRI_FreeString(TRI_CORE_MEM_ZONE, state->_lastError._msg);
state->_lastError._msg = NULL;
}
state->_lastError._code = TRI_ERROR_NO_ERROR;
TRI_GetTimeStampReplication(state->_lastError._time, sizeof(state->_lastError._time) - 1);
}
TRI_LockCondition(&applier->_runStateChangeCondition);
TRI_SignalCondition(&applier->_runStateChangeCondition);
TRI_UnlockCondition(&applier->_runStateChangeCondition);
return TRI_ERROR_NO_ERROR;
}
static int SetError (TRI_replication_applier_t* applier,
int errorCode,
char const* msg) {
TRI_replication_applier_state_t* state;
char const* realMsg;
if (msg == NULL || strlen(msg) == 0) {
realMsg = TRI_errno_string(errorCode);
}
else {
realMsg = msg;
}
// log error message
if (errorCode != TRI_ERROR_REPLICATION_APPLIER_STOPPED) {
LOG_ERROR("replication applier error for database '%s': %s", applier->_databaseName, realMsg);
}
state = &applier->_state;
state->_lastError._code = errorCode;
TRI_GetTimeStampReplication(state->_lastError._time, sizeof(state->_lastError._time) - 1);
if (state->_lastError._msg != NULL) {
TRI_FreeString(TRI_CORE_MEM_ZONE, state->_lastError._msg);
}
state->_lastError._msg = TRI_DuplicateStringZ(TRI_CORE_MEM_ZONE, realMsg);
return errorCode;
}
static int StartApplier (TRI_replication_applier_t* applier,
TRI_voc_tick_t initialTick,
bool useTick) {
TRI_replication_applier_state_t* state;
void* fetcher;
state = &applier->_state;
if (state->_active) {
return TRI_ERROR_INTERNAL;
}
if (applier->_configuration._endpoint == NULL) {
return SetError(applier, TRI_ERROR_REPLICATION_INVALID_APPLIER_CONFIGURATION, "no endpoint configured");
}
if (applier->_configuration._database == NULL) {
return SetError(applier, TRI_ERROR_REPLICATION_INVALID_APPLIER_CONFIGURATION, "no database configured");
}
fetcher = (void*) TRI_CreateContinuousSyncerReplication(applier->_vocbase,
&applier->_configuration,
initialTick,
useTick);
if (fetcher == NULL) {
return TRI_ERROR_OUT_OF_MEMORY;
}
// reset error
if (state->_lastError._msg != NULL) {
TRI_FreeString(TRI_CORE_MEM_ZONE, state->_lastError._msg);
state->_lastError._msg = NULL;
}
state->_lastError._code = TRI_ERROR_NO_ERROR;
TRI_GetTimeStampReplication(state->_lastError._time, sizeof(state->_lastError._time) - 1);
SetTerminateFlag(applier, false);
state->_active = true;
TRI_InitThread(&applier->_thread);
if (! TRI_StartThread(&applier->_thread, "[applier]", ApplyThread, fetcher)) {
TRI_DeleteContinuousSyncerReplication(fetcher);
return TRI_ERROR_INTERNAL;
}
LOG_INFO("started replication applier for database '%s'",
applier->_databaseName);
return TRI_ERROR_NO_ERROR;
}
static int StartApplier (TRI_replication_applier_t* applier,
TRI_voc_tick_t initialTick,
bool useTick) {
TRI_replication_applier_state_t* state = &applier->_state;
if (state->_active) {
return TRI_ERROR_INTERNAL;
}
if (applier->_configuration._endpoint == nullptr) {
return SetError(applier, TRI_ERROR_REPLICATION_INVALID_APPLIER_CONFIGURATION, "no endpoint configured");
}
if (applier->_configuration._database == nullptr) {
return SetError(applier, TRI_ERROR_REPLICATION_INVALID_APPLIER_CONFIGURATION, "no database configured");
}
// TODO: prevent restart of the applier with a tick after a shutdown
auto fetcher = new triagens::arango::ContinuousSyncer(applier->_server,
applier->_vocbase,
&applier->_configuration,
initialTick,
useTick);
if (fetcher == nullptr) {
return TRI_ERROR_OUT_OF_MEMORY;
}
// reset error
if (state->_lastError._msg != nullptr) {
TRI_FreeString(TRI_CORE_MEM_ZONE, state->_lastError._msg);
state->_lastError._msg = nullptr;
}
state->_lastError._code = TRI_ERROR_NO_ERROR;
TRI_GetTimeStampReplication(state->_lastError._time, sizeof(state->_lastError._time) - 1);
SetTerminateFlag(applier, false);
state->_active = true;
TRI_InitThread(&applier->_thread);
if (! TRI_StartThread(&applier->_thread, nullptr, "[applier]", ApplyThread, static_cast<void*>(fetcher))) {
delete fetcher;
return TRI_ERROR_INTERNAL;
}
LOG_INFO("started replication applier for database '%s'",
applier->_databaseName);
return TRI_ERROR_NO_ERROR;
}
static TRI_json_t* JsonState (TRI_replication_applier_state_t const* state) {
TRI_json_t* json;
TRI_json_t* last;
TRI_json_t* progress;
TRI_json_t* error;
char* lastString;
char timeString[24];
json = TRI_CreateArray2Json(TRI_CORE_MEM_ZONE, 9);
// add replication state
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "running", TRI_CreateBooleanJson(TRI_CORE_MEM_ZONE, state->_active));
// lastAppliedContinuousTick
if (state->_lastAppliedContinuousTick > 0) {
lastString = TRI_StringUInt64(state->_lastAppliedContinuousTick);
last = TRI_CreateStringJson(TRI_CORE_MEM_ZONE, lastString);
}
else {
last = TRI_CreateNullJson(TRI_CORE_MEM_ZONE);
}
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "lastAppliedContinuousTick", last);
// lastProcessedContinuousTick
if (state->_lastProcessedContinuousTick > 0) {
lastString = TRI_StringUInt64(state->_lastProcessedContinuousTick);
last = TRI_CreateStringJson(TRI_CORE_MEM_ZONE, lastString);
}
else {
last = TRI_CreateNullJson(TRI_CORE_MEM_ZONE);
}
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "lastProcessedContinuousTick", last);
// lastAvailableContinuousTick
if (state->_lastAvailableContinuousTick > 0) {
lastString = TRI_StringUInt64(state->_lastAvailableContinuousTick);
last = TRI_CreateStringJson(TRI_CORE_MEM_ZONE, lastString);
}
else {
last = TRI_CreateNullJson(TRI_CORE_MEM_ZONE);
}
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "lastAvailableContinuousTick", last);
// progress
progress = TRI_CreateArray2Json(TRI_CORE_MEM_ZONE, 2);
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, progress, "time", TRI_CreateStringCopyJson(TRI_CORE_MEM_ZONE, state->_progressTime));
if (state->_progressMsg != NULL) {
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, progress, "message", TRI_CreateStringCopyJson(TRI_CORE_MEM_ZONE, state->_progressMsg));
}
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, progress, "failedConnects", TRI_CreateNumberJson(TRI_CORE_MEM_ZONE, (double) state->_failedConnects));
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "progress", progress);
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "totalRequests", TRI_CreateNumberJson(TRI_CORE_MEM_ZONE, (double) state->_totalRequests));
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "totalFailedConnects", TRI_CreateNumberJson(TRI_CORE_MEM_ZONE, (double) state->_totalFailedConnects));
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "totalEvents", TRI_CreateNumberJson(TRI_CORE_MEM_ZONE, (double) state->_totalEvents));
// lastError
error = TRI_CreateArrayJson(TRI_CORE_MEM_ZONE);
if (error != NULL) {
if (state->_lastError._code > 0) {
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, error, "time", TRI_CreateStringCopyJson(TRI_CORE_MEM_ZONE, state->_lastError._time));
if (state->_lastError._msg != NULL) {
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, error, "errorMessage", TRI_CreateStringCopyJson(TRI_CORE_MEM_ZONE, state->_lastError._msg));
}
}
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, error, "errorNum", TRI_CreateNumberJson(TRI_CORE_MEM_ZONE, (double) state->_lastError._code));
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "lastError", error);
}
TRI_GetTimeStampReplication(timeString, sizeof(timeString) - 1);
TRI_Insert3ArrayJson(TRI_CORE_MEM_ZONE, json, "time", TRI_CreateStringCopyJson(TRI_CORE_MEM_ZONE, timeString));
return json;
}
