// static
WorkingSetID WorkingSetCommon::allocateStatusMember(WorkingSet* ws, const Status& status) {
invariant(ws);
WorkingSetID wsid = ws->allocate();
WorkingSetMember* member = ws->get(wsid);
member->obj = Snapshotted<BSONObj>(SnapshotId(), buildMemberStatusObject(status));
member->transitionToOwnedObj();
return wsid;
}
bool run(OperationContext* txn,
const string& dbname,
BSONObj& cmdObj,
int,
string& errmsg,
BSONObjBuilder& result) {
BSONElement first = cmdObj.firstElement();
uassert(28528,
str::stream() << "Argument to listIndexes must be of type String, not "
<< typeName(first.type()),
first.type() == String);
StringData collectionName = first.valueStringData();
uassert(28529,
str::stream() << "Argument to listIndexes must be a collection name, "
<< "not the empty string",
!collectionName.empty());
const NamespaceString ns(dbname, collectionName);
const long long defaultBatchSize = std::numeric_limits<long long>::max();
long long batchSize;
Status parseCursorStatus = parseCommandCursorOptions(cmdObj, defaultBatchSize, &batchSize);
if (!parseCursorStatus.isOK()) {
return appendCommandStatus(result, parseCursorStatus);
}
AutoGetCollectionForRead autoColl(txn, ns);
if (!autoColl.getDb()) {
return appendCommandStatus(result,
Status(ErrorCodes::NamespaceNotFound, "no database"));
}
const Collection* collection = autoColl.getCollection();
if (!collection) {
return appendCommandStatus(result,
Status(ErrorCodes::NamespaceNotFound, "no collection"));
}
const CollectionCatalogEntry* cce = collection->getCatalogEntry();
invariant(cce);
vector<string> indexNames;
MONGO_WRITE_CONFLICT_RETRY_LOOP_BEGIN {
indexNames.clear();
cce->getAllIndexes(txn, &indexNames);
}
MONGO_WRITE_CONFLICT_RETRY_LOOP_END(txn, "listIndexes", ns.ns());
std::unique_ptr<WorkingSet> ws(new WorkingSet());
std::unique_ptr<QueuedDataStage> root(new QueuedDataStage(ws.get()));
for (size_t i = 0; i < indexNames.size(); i++) {
BSONObj indexSpec;
MONGO_WRITE_CONFLICT_RETRY_LOOP_BEGIN {
indexSpec = cce->getIndexSpec(txn, indexNames[i]);
}
MONGO_WRITE_CONFLICT_RETRY_LOOP_END(txn, "listIndexes", ns.ns());
WorkingSetID id = ws->allocate();
WorkingSetMember* member = ws->get(id);
member->keyData.clear();
member->loc = RecordId();
member->obj = Snapshotted<BSONObj>(SnapshotId(), indexSpec.getOwned());
member->transitionToOwnedObj();
root->pushBack(id);
}
std::string cursorNamespace = str::stream() << dbname << ".$cmd." << name << "."
<< ns.coll();
dassert(NamespaceString(cursorNamespace).isValid());
dassert(NamespaceString(cursorNamespace).isListIndexesCursorNS());
dassert(ns == NamespaceString(cursorNamespace).getTargetNSForListIndexes());
auto statusWithPlanExecutor = PlanExecutor::make(
txn, std::move(ws), std::move(root), cursorNamespace, PlanExecutor::YIELD_MANUAL);
if (!statusWithPlanExecutor.isOK()) {
return appendCommandStatus(result, statusWithPlanExecutor.getStatus());
}
std::unique_ptr<PlanExecutor> exec = std::move(statusWithPlanExecutor.getValue());
BSONArrayBuilder firstBatch;
const int byteLimit = MaxBytesToReturnToClientAtOnce;
for (long long objCount = 0; objCount < batchSize && firstBatch.len() < byteLimit;
objCount++) {
BSONObj next;
PlanExecutor::ExecState state = exec->getNext(&next, NULL);
if (state == PlanExecutor::IS_EOF) {
break;
}
invariant(state == PlanExecutor::ADVANCED);
firstBatch.append(next);
}
CursorId cursorId = 0LL;
if (!exec->isEOF()) {
exec->saveState();
ClientCursor* cursor = new ClientCursor(
CursorManager::getGlobalCursorManager(), exec.release(), cursorNamespace);
cursorId = cursor->cursorid();
}
appendCursorResponseObject(cursorId, cursorNamespace, firstBatch.arr(), &result);
return true;
}
SnapshotId TerarkDbRecoveryUnit::getSnapshotId() const {
// TODO: use actual terarkdb txn id
return SnapshotId(_myTransactionCount);
}
SnapshotId WiredTigerRecoveryUnit::getSnapshotId() const {
// TODO: use actual wiredtiger txn id
return SnapshotId(_myTransactionCount);
}
SnapshotId RocksRecoveryUnit::getSnapshotId() const {
return SnapshotId(_myTransactionCount);
}
