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/**
* Copyright (C) 2013 10gen Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the GNU Affero General Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kQuery
#include "mongo/platform/basic.h"
#include "mongo/db/query/canonical_query.h"
#include "mongo/db/jsobj.h"
#include "mongo/db/matcher/expression_array.h"
#include "mongo/db/namespace_string.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/query/collation/collator_factory_interface.h"
#include "mongo/db/query/indexability.h"
#include "mongo/db/query/query_planner_common.h"
#include "mongo/util/log.h"
namespace mongo {
namespace {
/**
* Comparator for MatchExpression nodes. Returns an integer less than, equal to, or greater
* than zero if 'lhs' is less than, equal to, or greater than 'rhs', respectively.
*
* Sorts by:
* 1) operator type (MatchExpression::MatchType)
* 2) path name (MatchExpression::path())
* 3) sort order of children
* 4) number of children (MatchExpression::numChildren())
*
* The third item is needed to ensure that match expression trees which should have the same
* cache key always sort the same way. If you're wondering when the tuple (operator type, path
* name) could ever be equal, consider this query:
*
* {$and:[{$or:[{a:1},{a:2}]},{$or:[{a:1},{b:2}]}]}
*
* The two OR nodes would compare as equal in this case were it not for tuple item #3 (sort
* order of children).
*/
int matchExpressionComparator(const MatchExpression* lhs, const MatchExpression* rhs) {
MatchExpression::MatchType lhsMatchType = lhs->matchType();
MatchExpression::MatchType rhsMatchType = rhs->matchType();
if (lhsMatchType != rhsMatchType) {
return lhsMatchType < rhsMatchType ? -1 : 1;
}
StringData lhsPath = lhs->path();
StringData rhsPath = rhs->path();
int pathsCompare = lhsPath.compare(rhsPath);
if (pathsCompare != 0) {
return pathsCompare;
}
const size_t numChildren = std::min(lhs->numChildren(), rhs->numChildren());
for (size_t childIdx = 0; childIdx < numChildren; ++childIdx) {
int childCompare =
matchExpressionComparator(lhs->getChild(childIdx), rhs->getChild(childIdx));
if (childCompare != 0) {
return childCompare;
}
}
if (lhs->numChildren() != rhs->numChildren()) {
return lhs->numChildren() < rhs->numChildren() ? -1 : 1;
}
// They're equal!
return 0;
}
bool matchExpressionLessThan(const MatchExpression* lhs, const MatchExpression* rhs) {
return matchExpressionComparator(lhs, rhs) < 0;
}
bool parsingCanProduceNoopMatchNodes(const ExtensionsCallback& extensionsCallback,
MatchExpressionParser::AllowedFeatureSet allowedFeatures) {
return extensionsCallback.hasNoopExtensions() &&
(allowedFeatures & MatchExpressionParser::AllowedFeatures::kText ||
allowedFeatures & MatchExpressionParser::AllowedFeatures::kJavascript);
}
} // namespace
// static
StatusWith<std::unique_ptr<CanonicalQuery>> CanonicalQuery::canonicalize(
OperationContext* opCtx,
const QueryMessage& qm,
const boost::intrusive_ptr<ExpressionContext>& expCtx,
const ExtensionsCallback& extensionsCallback,
MatchExpressionParser::AllowedFeatureSet allowedFeatures) {
// Make QueryRequest.
auto qrStatus = QueryRequest::fromLegacyQueryMessage(qm);
if (!qrStatus.isOK()) {
return qrStatus.getStatus();
}
return CanonicalQuery::canonicalize(
opCtx, std::move(qrStatus.getValue()), expCtx, extensionsCallback, allowedFeatures);
}
// static
StatusWith<std::unique_ptr<CanonicalQuery>> CanonicalQuery::canonicalize(
OperationContext* opCtx,
std::unique_ptr<QueryRequest> qr,
const boost::intrusive_ptr<ExpressionContext>& expCtx,
const ExtensionsCallback& extensionsCallback,
MatchExpressionParser::AllowedFeatureSet allowedFeatures) {
auto qrStatus = qr->validate();
if (!qrStatus.isOK()) {
return qrStatus;
}
std::unique_ptr<CollatorInterface> collator;
if (!qr->getCollation().isEmpty()) {
auto statusWithCollator = CollatorFactoryInterface::get(opCtx->getServiceContext())
->makeFromBSON(qr->getCollation());
if (!statusWithCollator.isOK()) {
return statusWithCollator.getStatus();
}
collator = std::move(statusWithCollator.getValue());
}
// Make MatchExpression.
boost::intrusive_ptr<ExpressionContext> newExpCtx;
if (!expCtx.get()) {
newExpCtx.reset(new ExpressionContext(opCtx, collator.get()));
} else {
newExpCtx = expCtx;
invariant(CollatorInterface::collatorsMatch(collator.get(), expCtx->getCollator()));
}
StatusWithMatchExpression statusWithMatcher = MatchExpressionParser::parse(
qr->getFilter(), newExpCtx, extensionsCallback, allowedFeatures);
if (!statusWithMatcher.isOK()) {
return statusWithMatcher.getStatus();
}
std::unique_ptr<MatchExpression> me = std::move(statusWithMatcher.getValue());
// Make the CQ we'll hopefully return.
std::unique_ptr<CanonicalQuery> cq(new CanonicalQuery());
Status initStatus =
cq->init(opCtx,
std::move(qr),
parsingCanProduceNoopMatchNodes(extensionsCallback, allowedFeatures),
std::move(me),
std::move(collator));
if (!initStatus.isOK()) {
return initStatus;
}
return std::move(cq);
}
// static
StatusWith<std::unique_ptr<CanonicalQuery>> CanonicalQuery::canonicalize(
OperationContext* opCtx, const CanonicalQuery& baseQuery, MatchExpression* root) {
auto qr = stdx::make_unique<QueryRequest>(baseQuery.nss());
BSONObjBuilder builder;
root->serialize(&builder);
qr->setFilter(builder.obj());
qr->setProj(baseQuery.getQueryRequest().getProj());
qr->setSort(baseQuery.getQueryRequest().getSort());
qr->setCollation(baseQuery.getQueryRequest().getCollation());
qr->setExplain(baseQuery.getQueryRequest().isExplain());
auto qrStatus = qr->validate();
if (!qrStatus.isOK()) {
return qrStatus;
}
std::unique_ptr<CollatorInterface> collator;
if (baseQuery.getCollator()) {
collator = baseQuery.getCollator()->clone();
}
// Make the CQ we'll hopefully return.
std::unique_ptr<CanonicalQuery> cq(new CanonicalQuery());
Status initStatus = cq->init(opCtx,
std::move(qr),
baseQuery.canHaveNoopMatchNodes(),
root->shallowClone(),
std::move(collator));
if (!initStatus.isOK()) {
return initStatus;
}
return std::move(cq);
}
Status CanonicalQuery::init(OperationContext* opCtx,
std::unique_ptr<QueryRequest> qr,
bool canHaveNoopMatchNodes,
std::unique_ptr<MatchExpression> root,
std::unique_ptr<CollatorInterface> collator) {
_qr = std::move(qr);
_collator = std::move(collator);
_canHaveNoopMatchNodes = canHaveNoopMatchNodes;
_isIsolated = QueryRequest::isQueryIsolated(_qr->getFilter());
if (_isIsolated) {
RARELY {
warning() << "The $isolated/$atomic option is deprecated. See "
"http://dochub.mongodb.org/core/isolated-deprecation";
}
}
// Normalize, sort and validate tree.
_root = MatchExpression::optimize(std::move(root));
sortTree(_root.get());
Status validStatus = isValid(_root.get(), *_qr);
if (!validStatus.isOK()) {
return validStatus;
}
// Validate the projection if there is one.
if (!_qr->getProj().isEmpty()) {
ParsedProjection* pp;
Status projStatus = ParsedProjection::make(opCtx, _qr->getProj(), _root.get(), &pp);
if (!projStatus.isOK()) {
return projStatus;
}
_proj.reset(pp);
}
if (_proj && _proj->wantSortKey() && _qr->getSort().isEmpty()) {
return Status(ErrorCodes::BadValue, "cannot use sortKey $meta projection without a sort");
}
return Status::OK();
}
void CanonicalQuery::setCollator(std::unique_ptr<CollatorInterface> collator) {
_collator = std::move(collator);
// The collator associated with the match expression tree is now invalid, since we have reset
// the object owned by '_collator'. We must associate the match expression tree with the new
// value of '_collator'.
_root->setCollator(_collator.get());
}
// static
bool CanonicalQuery::isSimpleIdQuery(const BSONObj& query) {
bool hasID = false;
BSONObjIterator it(query);
while (it.more()) {
BSONElement elt = it.next();
if (str::equals("_id", elt.fieldName())) {
// Verify that the query on _id is a simple equality.
hasID = true;
if (elt.type() == Object) {
// If the value is an object, it can't have a query operator
// (must be a literal object match).
if (elt.Obj().firstElementFieldName()[0] == '$') {
return false;
}
} else if (!Indexability::isExactBoundsGenerating(elt)) {
// The _id fild cannot be something like { _id : { $gt : ...
// But it can be BinData.
return false;
}
} else if (elt.fieldName()[0] == '$' && (str::equals("$isolated", elt.fieldName()) ||
str::equals("$atomic", elt.fieldName()))) {
// ok, passthrough
} else {
// If the field is not _id, it must be $isolated/$atomic.
return false;
}
}
return hasID;
}
// static
void CanonicalQuery::sortTree(MatchExpression* tree) {
for (size_t i = 0; i < tree->numChildren(); ++i) {
sortTree(tree->getChild(i));
}
std::vector<MatchExpression*>* children = tree->getChildVector();
if (NULL != children) {
std::sort(children->begin(), children->end(), matchExpressionLessThan);
}
}
// static
size_t CanonicalQuery::countNodes(const MatchExpression* root, MatchExpression::MatchType type) {
size_t sum = 0;
if (type == root->matchType()) {
sum = 1;
}
for (size_t i = 0; i < root->numChildren(); ++i) {
sum += countNodes(root->getChild(i), type);
}
return sum;
}
/**
* Does 'root' have a subtree of type 'subtreeType' with a node of type 'childType' inside?
*/
bool hasNodeInSubtree(MatchExpression* root,
MatchExpression::MatchType childType,
MatchExpression::MatchType subtreeType) {
if (subtreeType == root->matchType()) {
return QueryPlannerCommon::hasNode(root, childType);
}
for (size_t i = 0; i < root->numChildren(); ++i) {
if (hasNodeInSubtree(root->getChild(i), childType, subtreeType)) {
return true;
}
}
return false;
}
// static
Status CanonicalQuery::isValid(MatchExpression* root, const QueryRequest& parsed) {
// Analysis below should be done after squashing the tree to make it clearer.
// There can only be one TEXT. If there is a TEXT, it cannot appear inside a NOR.
//
// Note that the query grammar (as enforced by the MatchExpression parser) forbids TEXT
// inside of value-expression clauses like NOT, so we don't check those here.
size_t numText = countNodes(root, MatchExpression::TEXT);
if (numText > 1) {
return Status(ErrorCodes::BadValue, "Too many text expressions");
} else if (1 == numText) {
if (hasNodeInSubtree(root, MatchExpression::TEXT, MatchExpression::NOR)) {
return Status(ErrorCodes::BadValue, "text expression not allowed in nor");
}
}
// There can only be one NEAR. If there is a NEAR, it must be either the root or the root
// must be an AND and its child must be a NEAR.
size_t numGeoNear = countNodes(root, MatchExpression::GEO_NEAR);
if (numGeoNear > 1) {
return Status(ErrorCodes::BadValue, "Too many geoNear expressions");
} else if (1 == numGeoNear) {
bool topLevel = false;
if (MatchExpression::GEO_NEAR == root->matchType()) {
topLevel = true;
} else if (MatchExpression::AND == root->matchType()) {
for (size_t i = 0; i < root->numChildren(); ++i) {
if (MatchExpression::GEO_NEAR == root->getChild(i)->matchType()) {
topLevel = true;
break;
}
}
}
if (!topLevel) {
return Status(ErrorCodes::BadValue, "geoNear must be top-level expr");
}
}
// NEAR cannot have a $natural sort or $natural hint.
const BSONObj& sortObj = parsed.getSort();
BSONElement sortNaturalElt = sortObj["$natural"];
const BSONObj& hintObj = parsed.getHint();
BSONElement hintNaturalElt = hintObj["$natural"];
if (numGeoNear > 0) {
if (sortNaturalElt) {
return Status(ErrorCodes::BadValue,
"geoNear expression not allowed with $natural sort order");
}
if (hintNaturalElt) {
return Status(ErrorCodes::BadValue,
"geoNear expression not allowed with $natural hint");
}
}
// TEXT and NEAR cannot both be in the query.
if (numText > 0 && numGeoNear > 0) {
return Status(ErrorCodes::BadValue, "text and geoNear not allowed in same query");
}
// TEXT and {$natural: ...} sort order cannot both be in the query.
if (numText > 0 && sortNaturalElt) {
return Status(ErrorCodes::BadValue, "text expression not allowed with $natural sort order");
}
// TEXT and hint cannot both be in the query.
if (numText > 0 && !hintObj.isEmpty()) {
return Status(ErrorCodes::BadValue, "text and hint not allowed in same query");
}
// TEXT and snapshot cannot both be in the query.
if (numText > 0 && parsed.isSnapshot()) {
return Status(ErrorCodes::BadValue, "text and snapshot not allowed in same query");
}
// TEXT and tailable are incompatible.
if (numText > 0 && parsed.isTailable()) {
return Status(ErrorCodes::BadValue, "text and tailable cursor not allowed in same query");
}
// $natural sort order must agree with hint.
if (sortNaturalElt) {
if (!hintObj.isEmpty() && !hintNaturalElt) {
return Status(ErrorCodes::BadValue, "index hint not allowed with $natural sort order");
}
if (hintNaturalElt) {
if (hintNaturalElt.numberInt() != sortNaturalElt.numberInt()) {
return Status(ErrorCodes::BadValue,
"$natural hint must be in the same direction as $natural sort order");
}
}
}
return Status::OK();
}
std::string CanonicalQuery::toString() const {
str::stream ss;
ss << "ns=" << _qr->nss().ns();
if (_qr->getBatchSize()) {
ss << " batchSize=" << *_qr->getBatchSize();
}
if (_qr->getLimit()) {
ss << " limit=" << *_qr->getLimit();
}
if (_qr->getSkip()) {
ss << " skip=" << *_qr->getSkip();
}
if (_qr->getNToReturn()) {
ss << " ntoreturn=" << *_qr->getNToReturn() << '\n';
}
// The expression tree puts an endl on for us.
ss << "Tree: " << _root->toString();
ss << "Sort: " << _qr->getSort().toString() << '\n';
ss << "Proj: " << _qr->getProj().toString() << '\n';
if (!_qr->getCollation().isEmpty()) {
ss << "Collation: " << _qr->getCollation().toString() << '\n';
}
return ss;
}
std::string CanonicalQuery::toStringShort() const {
str::stream ss;
ss << "query: " << _qr->getFilter().toString() << " sort: " << _qr->getSort().toString()
<< " projection: " << _qr->getProj().toString();
if (!_qr->getCollation().isEmpty()) {
ss << " collation: " << _qr->getCollation().toString();
}
if (_qr->getBatchSize()) {
ss << " batchSize: " << *_qr->getBatchSize();
}
if (_qr->getLimit()) {
ss << " limit: " << *_qr->getLimit();
}
if (_qr->getSkip()) {
ss << " skip: " << *_qr->getSkip();
}
if (_qr->getNToReturn()) {
ss << " ntoreturn=" << *_qr->getNToReturn();
}
return ss;
}
} // namespace mongo
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