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/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* 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
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* 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 Server Side 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.
*/
#include "mongo/platform/basic.h"
#include "mongo/db/pipeline/document_source.h"
#include "mongo/db/matcher/expression_algo.h"
#include "mongo/db/pipeline/document_source_match.h"
#include "mongo/db/pipeline/document_source_sample.h"
#include "mongo/db/pipeline/document_source_sequential_document_cache.h"
#include "mongo/db/pipeline/expression_context.h"
#include "mongo/db/pipeline/field_path.h"
#include "mongo/db/pipeline/value.h"
#include "mongo/util/string_map.h"
namespace mongo {
using Parser = DocumentSource::Parser;
using boost::intrusive_ptr;
using std::list;
using std::string;
using std::vector;
DocumentSource::DocumentSource(const intrusive_ptr<ExpressionContext>& pCtx)
: pSource(NULL), pExpCtx(pCtx) {}
namespace {
// Used to keep track of which DocumentSources are registered under which name.
static StringMap<Parser> parserMap;
} // namespace
void DocumentSource::registerParser(string name, Parser parser) {
auto it = parserMap.find(name);
massert(28707,
str::stream() << "Duplicate document source (" << name << ") registered.",
it == parserMap.end());
parserMap[name] = parser;
}
list<intrusive_ptr<DocumentSource>> DocumentSource::parse(
const intrusive_ptr<ExpressionContext>& expCtx, BSONObj stageObj) {
uassert(16435,
"A pipeline stage specification object must contain exactly one field.",
stageObj.nFields() == 1);
BSONElement stageSpec = stageObj.firstElement();
auto stageName = stageSpec.fieldNameStringData();
// Get the registered parser and call that.
auto it = parserMap.find(stageName);
uassert(16436,
str::stream() << "Unrecognized pipeline stage name: '" << stageName << "'",
it != parserMap.end());
return it->second(stageSpec, expCtx);
}
const char* DocumentSource::getSourceName() const {
static const char unknown[] = "[UNKNOWN]";
return unknown;
}
intrusive_ptr<DocumentSource> DocumentSource::optimize() {
return this;
}
namespace {
/**
* Given a set of paths 'dependencies', determines which of those paths will be modified if all
* paths except those in 'preservedPaths' are modified.
*
* For example, extractModifiedDependencies({'a', 'b', 'c.d', 'e'}, {'a', 'b.c', c'}) returns
* {'b', 'e'}, since 'b' and 'e' are not preserved (only 'b.c' is preserved).
*/
std::set<std::string> extractModifiedDependencies(const std::set<std::string>& dependencies,
const std::set<std::string>& preservedPaths) {
std::set<std::string> modifiedDependencies;
// The modified dependencies is *almost* the set difference 'dependencies' - 'preservedPaths',
// except that if p in 'preservedPaths' is a "path prefix" of d in 'dependencies', then 'd'
// should not be included in the modified dependencies.
for (auto&& dependency : dependencies) {
bool preserved = false;
auto firstField = FieldPath::extractFirstFieldFromDottedPath(dependency).toString();
// If even a prefix is preserved, the path is preserved, so search for any prefixes of
// 'dependency' as well. 'preservedPaths' is an *ordered* set, so we only have to search the
// range ['firstField', 'dependency'] to find any prefixes of 'dependency'.
for (auto it = preservedPaths.lower_bound(firstField);
it != preservedPaths.upper_bound(dependency);
++it) {
if (*it == dependency || expression::isPathPrefixOf(*it, dependency)) {
preserved = true;
break;
}
}
if (!preserved) {
modifiedDependencies.insert(dependency);
}
}
return modifiedDependencies;
}
/**
* Returns a pair of pointers to $match stages, either of which can be null. The first entry in the
* pair is a $match stage that can be moved before this stage, the second is a $match stage that
* must remain after this stage.
*/
std::pair<boost::intrusive_ptr<DocumentSourceMatch>, boost::intrusive_ptr<DocumentSourceMatch>>
splitMatchByModifiedFields(const boost::intrusive_ptr<DocumentSourceMatch>& match,
const DocumentSource::GetModPathsReturn& modifiedPathsRet) {
// Attempt to move some or all of this $match before this stage.
std::set<std::string> modifiedPaths;
switch (modifiedPathsRet.type) {
case DocumentSource::GetModPathsReturn::Type::kNotSupported:
// We don't know what paths this stage might modify, so refrain from swapping.
return {nullptr, match};
case DocumentSource::GetModPathsReturn::Type::kAllPaths:
// This stage modifies all paths, so cannot be swapped with a $match at all.
return {nullptr, match};
case DocumentSource::GetModPathsReturn::Type::kFiniteSet:
modifiedPaths = std::move(modifiedPathsRet.paths);
break;
case DocumentSource::GetModPathsReturn::Type::kAllExcept: {
DepsTracker depsTracker;
match->getDependencies(&depsTracker);
auto preservedPaths = modifiedPathsRet.paths;
for (auto&& rename : modifiedPathsRet.renames) {
preservedPaths.insert(rename.first);
}
modifiedPaths = extractModifiedDependencies(depsTracker.fields, preservedPaths);
}
}
return match->splitSourceBy(modifiedPaths, modifiedPathsRet.renames);
}
/**
* If 'pathOfInterest' or some path prefix of 'pathOfInterest' is renamed, returns the new name for
* 'pathOfInterest', otherwise returns boost::none.
* For example, if 'renamedPaths' is {"c.d", "c"}, and 'pathOfInterest' is "c.d.f", returns "c.f".
*/
boost::optional<std::string> findNewName(const StringMap<std::string>& renamedPaths,
std::string pathOfInterest) {
FieldPath fullPathOfInterest(pathOfInterest);
StringBuilder toLookup;
std::size_t pathIndex = 0;
while (pathIndex < fullPathOfInterest.getPathLength()) {
if (pathIndex != 0) {
toLookup << ".";
}
toLookup << fullPathOfInterest.getFieldName(pathIndex++);
auto it = renamedPaths.find(toLookup.stringData());
if (it != renamedPaths.end()) {
const auto& newPathOfPrefix = it->second;
// We found a rename! Note this might be a rename of the prefix of the path, so we have
// to add back on the suffix that was unchanged.
StringBuilder renamedPath;
renamedPath << newPathOfPrefix;
while (pathIndex < fullPathOfInterest.getPathLength()) {
renamedPath << "." << fullPathOfInterest.getFieldName(pathIndex++);
}
return {renamedPath.str()};
}
}
return boost::none;
}
StringMap<std::string> computeNewNamesAssumingAnyPathsNotRenamedAreUnmodified(
const StringMap<std::string>& renamedPaths, const std::set<std::string>& pathsOfInterest) {
StringMap<std::string> renameOut;
for (auto&& ofInterest : pathsOfInterest) {
if (auto newName = findNewName(renamedPaths, ofInterest)) {
renameOut[ofInterest] = *newName;
} else {
// This path was not renamed, assume it was unchanged and map it to itself.
renameOut[ofInterest] = ofInterest;
}
}
return renameOut;
}
} // namespace
bool DocumentSource::pushMatchBefore(Pipeline::SourceContainer::iterator itr,
Pipeline::SourceContainer* container) {
auto nextMatch = dynamic_cast<DocumentSourceMatch*>((*std::next(itr)).get());
if (constraints().canSwapWithMatch && nextMatch && !nextMatch->isTextQuery()) {
// We're allowed to swap with a $match and the stage after us is a $match. Furthermore, the
// $match does not contain a text search predicate, which we do not attempt to optimize
// because such a $match must already be the first stage in the pipeline. We can attempt to
// swap the $match or part of the $match before ourselves.
auto splitMatch = splitMatchByModifiedFields(nextMatch, getModifiedPaths());
invariant(splitMatch.first || splitMatch.second);
if (splitMatch.first) {
// At least part of the $match can be moved before this stage. Erase the original $match
// and put the independent part before this stage. If splitMatch.second is not null,
// then there is a new $match stage to insert after ourselves which is dependent on the
// modified fields.
container->erase(std::next(itr));
container->insert(itr, std::move(splitMatch.first));
if (splitMatch.second) {
container->insert(std::next(itr), std::move(splitMatch.second));
}
return true;
}
}
return false;
}
bool DocumentSource::pushSampleBefore(Pipeline::SourceContainer::iterator itr,
Pipeline::SourceContainer* container) {
auto nextSample = dynamic_cast<DocumentSourceSample*>((*std::next(itr)).get());
if (constraints().canSwapWithLimitAndSample && nextSample) {
container->insert(itr, std::move(nextSample));
container->erase(std::next(itr));
return true;
}
return false;
}
Pipeline::SourceContainer::iterator DocumentSource::optimizeAt(
Pipeline::SourceContainer::iterator itr, Pipeline::SourceContainer* container) {
invariant(*itr == this);
// If we are at the end of the pipeline, only optimize in the special case of a cache stage.
if (std::next(itr) == container->end()) {
return dynamic_cast<DocumentSourceSequentialDocumentCache*>(this)
? doOptimizeAt(itr, container)
: container->end();
}
// Attempt to swap 'itr' with a subsequent $match or subsequent $sample.
if (pushMatchBefore(itr, container) || pushSampleBefore(itr, container)) {
// The stage before the pushed before stage may be able to optimize further, if there is
// such a stage.
return std::prev(itr) == container->begin() ? std::prev(itr) : std::prev(std::prev(itr));
}
return doOptimizeAt(itr, container);
}
boost::optional<StringMap<std::string>> DocumentSource::renamedPaths(
const std::set<std::string>& pathsOfInterest) const {
auto modifiedPathsRet = this->getModifiedPaths();
switch (modifiedPathsRet.type) {
case DocumentSource::GetModPathsReturn::Type::kNotSupported:
case DocumentSource::GetModPathsReturn::Type::kAllPaths:
return boost::none;
case DocumentSource::GetModPathsReturn::Type::kFiniteSet: {
for (auto&& modified : modifiedPathsRet.paths) {
for (auto&& ofInterest : pathsOfInterest) {
// Any overlap of the path means the path of interest is not preserved. For
// example, if the path of interest is "a.b", then a modified path of "a",
// "a.b", or "a.b.c" would all signal that "a.b" is not preserved.
if (ofInterest == modified ||
expression::isPathPrefixOf(ofInterest, modified) ||
expression::isPathPrefixOf(modified, ofInterest)) {
// This stage modifies at least one of the fields which the caller is
// interested in, bail out.
return boost::none;
}
}
}
// None of the paths of interest were modified, construct the result map, mapping
// the names after this stage to the names before this stage.
return computeNewNamesAssumingAnyPathsNotRenamedAreUnmodified(modifiedPathsRet.renames,
pathsOfInterest);
}
case DocumentSource::GetModPathsReturn::Type::kAllExcept: {
auto preservedPaths = modifiedPathsRet.paths;
for (auto&& rename : modifiedPathsRet.renames) {
// For the purposes of checking which paths are modified, consider renames to
// preserve the path. We'll circle back later to figure out the new name if
// appropriate.
preservedPaths.insert(rename.first);
}
auto modifiedPaths = extractModifiedDependencies(pathsOfInterest, preservedPaths);
if (modifiedPaths.empty()) {
return computeNewNamesAssumingAnyPathsNotRenamedAreUnmodified(
modifiedPathsRet.renames, pathsOfInterest);
}
return boost::none;
}
}
MONGO_UNREACHABLE;
}
void DocumentSource::serializeToArray(vector<Value>& array,
boost::optional<ExplainOptions::Verbosity> explain) const {
Value entry = serialize(explain);
if (!entry.missing()) {
array.push_back(entry);
}
}
BSONObjSet DocumentSource::allPrefixes(BSONObj obj) {
BSONObjSet out = SimpleBSONObjComparator::kInstance.makeBSONObjSet();
BSONObj last = {};
for (auto&& field : obj) {
BSONObjBuilder builder(last.objsize() + field.size());
builder.appendElements(last);
builder.append(field);
last = builder.obj();
out.insert(last);
}
return out;
}
BSONObjSet DocumentSource::truncateSortSet(const BSONObjSet& sorts,
const std::set<std::string>& fields) {
BSONObjSet out = SimpleBSONObjComparator::kInstance.makeBSONObjSet();
for (auto&& sort : sorts) {
BSONObjBuilder outputSort;
for (auto&& key : sort) {
auto keyName = key.fieldNameStringData();
bool shouldAppend = true;
for (auto&& field : fields) {
if (keyName == field || keyName.startsWith(field + '.')) {
shouldAppend = false;
break;
}
}
if (!shouldAppend) {
break;
}
outputSort.append(key);
}
BSONObj outSortObj = outputSort.obj();
if (!outSortObj.isEmpty()) {
out.insert(outSortObj);
}
}
return out;
}
} // namespace mongo
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