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|
/**
* Copyright (C) 2022-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.
*/
#pragma once
#include <array>
#include <boost/optional.hpp>
#include <cstdint>
#include <string>
#include <utility>
#include <vector>
#include "mongo/base/data_range.h"
#include "mongo/base/data_type_validated.h"
#include "mongo/base/secure_allocator.h"
#include "mongo/base/status_with.h"
#include "mongo/base/string_data.h"
#include "mongo/bson/bsonelement.h"
#include "mongo/bson/bsonmisc.h"
#include "mongo/bson/bsonobj.h"
#include "mongo/bson/bsontypes.h"
#include "mongo/crypto/aead_encryption.h"
#include "mongo/crypto/encryption_fields_gen.h"
#include "mongo/crypto/fle_field_schema_gen.h"
#include "mongo/crypto/symmetric_crypto.h"
#include "mongo/db/exec/document_value/value.h"
#include "mongo/db/namespace_string.h"
#include "mongo/rpc/object_check.h"
#include "mongo/util/uuid.h"
namespace mongo {
constexpr auto kSafeContent = "__safeContent__";
using PrfBlock = std::array<std::uint8_t, 32>;
using KeyMaterial = SecureVector<std::uint8_t>;
// u = [1, max parallel clients)
using FLEContentionFactor = std::uint64_t;
using FLECounter = std::uint64_t;
/**
* There are two types of keys that are user supplied.
* 1. Index, aka S - this encrypts the index structures
* 2. User, aka K - this encrypts the user data.
*
* These keys only exist on the client, they are never on the server-side.
*/
enum class FLEKeyType {
Index, // i.e. S
User, // i.e. K
};
/**
* Template class to ensure unique C++ types for each key.
*/
template <FLEKeyType KeyT>
struct FLEKey {
FLEKey() = default;
FLEKey(KeyMaterial dataIn) : data(std::move(dataIn)) {
// This is not a mistake; same keys will be used in FLE2 as in FLE1
uassert(6364500,
str::stream() << "Length of KeyMaterial is expected to be "
<< crypto::kFieldLevelEncryptionKeySize << " bytes, found "
<< data->size(),
data->size() == crypto::kFieldLevelEncryptionKeySize);
}
ConstDataRange toCDR() const {
return ConstDataRange(data->data(), data->data() + data->size());
}
// Actual type of the key
FLEKeyType type{KeyT};
// Raw bytes of the key
KeyMaterial data;
};
using FLEIndexKey = FLEKey<FLEKeyType::Index>;
using FLEUserKey = FLEKey<FLEKeyType::User>;
/**
* Key Material and its UUID id.
*
* The UUID is persisted into the serialized structures so that decryption is self-describing.
*/
template <FLEKeyType KeyT>
struct FLEKeyAndId {
FLEKeyAndId(KeyMaterial material, UUID uuid) : key(material), keyId(uuid) {}
FLEKey<KeyT> key;
UUID keyId;
};
using FLEIndexKeyAndId = FLEKeyAndId<FLEKeyType::Index>;
using FLEUserKeyAndId = FLEKeyAndId<FLEKeyType::User>;
/*
* The many token types are derived from the index key
*
* Terminology
* f = field
* v = value
* u =
* - For non-contentious fields, we select the partition number, u, to be equal to 0.
* - For contentious fields, with a contention factor, p, we pick the partition number, u,
* uniformly at random from the set {0, ..., p}.
*
* CollectionsLevel1Token = HMAC(IndexKey, 1) = K_{f,1}
* ServerDataEncryptionLevel1Token = HMAC(IndexKey, 3) = K_{f,3} = Fs[f,3]
*
* EDCToken = HMAC(CollectionsLevel1Token, 1) = K^{edc}_f
* ESCToken = HMAC(CollectionsLevel1Token, 2) = K^{esc}_f
* ECCToken = HMAC(CollectionsLevel1Token, 3) = K^{ecc}_f
* ECOCToken = HMAC(CollectionsLevel1Token, 4) = K^{ecoc}_f = Fs[f,1,4]
*
* EDCDerivedFromDataToken = HMAC(EDCToken, v) = K^{edc}_{f,v} = Fs[f,1,1,v]
* ESCDerivedFromDataToken = HMAC(ESCToken, v) = K^{esc}_{f,v} = Fs[f,1,2,v]
* ECCDerivedFromDataToken = HMAC(ECCToken, v) = K^{ecc}_{f,v} = Fs[f,1,3,v]
*
* EDCDerivedFromDataTokenAndContentionFactorToken = HMAC(EDCDerivedFromDataToken, u) =
* Fs[f,1,1,v,u] ESCDerivedFromDataTokenAndContentionFactorToken = HMAC(ESCDerivedFromDataToken, u)
* = Fs[f,1,2,v,u] ECCDerivedFromDataTokenAndContentionFactorToken = HMAC(ECCDerivedFromDataToken,
* u) = Fs[f,1,3,v,u]
*
* EDCTwiceDerivedToken = HMAC(EDCDerivedFromDataTokenAndContentionFactorToken, 1) = Fs_edc(1)
* ESCTwiceDerivedTagToken = HMAC(ESCDerivedFromDataTokenAndContentionFactorToken, 1) = Fs_esc(1)
* ESCTwiceDerivedValueToken = HMAC(ESCDerivedFromDataTokenAndContentionFactorToken, 2) = Fs_esc(2)
* ECCTwiceDerivedTagToken = HMAC(ECCDerivedFromDataTokenAndContentionFactorToken, 1) = Fs_ecc(1)
* ECCTwiceDerivedValueToken = HMAC(ECCDerivedFromDataTokenAndContentionFactorToken, 2) = Fs_ecc(2)
*/
enum class FLETokenType {
CollectionsLevel1Token,
ServerDataEncryptionLevel1Token,
EDCToken,
ESCToken,
ECCToken,
ECOCToken,
EDCDerivedFromDataToken,
ESCDerivedFromDataToken,
ECCDerivedFromDataToken,
EDCDerivedFromDataTokenAndContentionFactorToken,
ESCDerivedFromDataTokenAndContentionFactorToken,
ECCDerivedFromDataTokenAndContentionFactorToken,
EDCTwiceDerivedToken,
ESCTwiceDerivedTagToken,
ESCTwiceDerivedValueToken,
ECCTwiceDerivedTagToken,
ECCTwiceDerivedValueToken,
};
/**
* Templated C++ class that contains a token. A templated class is used to create a strongly typed
* API that is hard to misuse.
*/
template <FLETokenType TokenT>
struct FLEToken {
FLEToken() = default;
FLEToken(PrfBlock dataIn) : data(std::move(dataIn)) {}
ConstDataRange toCDR() const {
return ConstDataRange(data.data(), data.data() + data.size());
}
bool operator==(const FLEToken<TokenT>& other) const {
return (type == other.type) && (data == other.data);
}
bool operator!=(const FLEToken<TokenT>& other) const {
return !(*this == other);
}
template <typename H>
friend H AbslHashValue(H h, const FLEToken<TokenT>& token) {
return H::combine(std::move(h), token.type, token.data);
}
FLETokenType type{TokenT};
PrfBlock data;
};
using CollectionsLevel1Token = FLEToken<FLETokenType::CollectionsLevel1Token>;
using ServerDataEncryptionLevel1Token = FLEToken<FLETokenType::ServerDataEncryptionLevel1Token>;
using EDCToken = FLEToken<FLETokenType::EDCToken>;
using ESCToken = FLEToken<FLETokenType::ESCToken>;
using ECCToken = FLEToken<FLETokenType::ECCToken>;
using ECOCToken = FLEToken<FLETokenType::ECOCToken>;
using EDCDerivedFromDataToken = FLEToken<FLETokenType::EDCDerivedFromDataToken>;
using ESCDerivedFromDataToken = FLEToken<FLETokenType::ESCDerivedFromDataToken>;
using ECCDerivedFromDataToken = FLEToken<FLETokenType::ECCDerivedFromDataToken>;
using EDCDerivedFromDataTokenAndContentionFactorToken =
FLEToken<FLETokenType::EDCDerivedFromDataTokenAndContentionFactorToken>;
using ESCDerivedFromDataTokenAndContentionFactorToken =
FLEToken<FLETokenType::ESCDerivedFromDataTokenAndContentionFactorToken>;
using ECCDerivedFromDataTokenAndContentionFactorToken =
FLEToken<FLETokenType::ECCDerivedFromDataTokenAndContentionFactorToken>;
using EDCTwiceDerivedToken = FLEToken<FLETokenType::EDCTwiceDerivedToken>;
using ESCTwiceDerivedTagToken = FLEToken<FLETokenType::ESCTwiceDerivedTagToken>;
using ESCTwiceDerivedValueToken = FLEToken<FLETokenType::ESCTwiceDerivedValueToken>;
using ECCTwiceDerivedTagToken = FLEToken<FLETokenType::ECCTwiceDerivedTagToken>;
using ECCTwiceDerivedValueToken = FLEToken<FLETokenType::ECCTwiceDerivedValueToken>;
/**
* Generate tokens from the Index Key
*/
class FLELevel1TokenGenerator {
public:
/**
* CollectionsLevel1Token = HMAC(IndexKey, 1) = K_{f,1}
*/
static CollectionsLevel1Token generateCollectionsLevel1Token(FLEIndexKey indexKey);
/**
* CollectionsLevel1Token =HMAC(IndexKey, 3) = K_{f,3}
*/
static ServerDataEncryptionLevel1Token generateServerDataEncryptionLevel1Token(
FLEIndexKey indexKey);
};
/**
* Generate tokens from the CollectionsLevel1Token for use with the various collections.
*/
class FLECollectionTokenGenerator {
public:
/**
* EDCToken = HMAC(CollectionsLevel1Token, 1) = K^{edc}_f
*/
static EDCToken generateEDCToken(CollectionsLevel1Token token);
/**
* ESCToken = HMAC(CollectionsLevel1Token, 2) = K^{esc}_f
*/
static ESCToken generateESCToken(CollectionsLevel1Token token);
/**
* ECCToken = HMAC(CollectionsLevel1Token, 3) = K^{ecc}_f
*/
static ECCToken generateECCToken(CollectionsLevel1Token token);
/**
* ECOCToken = HMAC(CollectionsLevel1Token, 4) = K^{ecoc}_f
*/
static ECOCToken generateECOCToken(CollectionsLevel1Token token);
};
/**
* Generate tokens for the various collections derived from the user data.
*/
class FLEDerivedFromDataTokenGenerator {
public:
/**
* EDCDerivedFromDataToken = HMAC(EDCToken, v) = K^{edc}_{f,v}
*/
static EDCDerivedFromDataToken generateEDCDerivedFromDataToken(EDCToken token,
ConstDataRange value);
/**
* ESCDerivedFromDataToken = HMAC(ESCToken, v) = K^{esc}_{f,v}
*/
static ESCDerivedFromDataToken generateESCDerivedFromDataToken(ESCToken token,
ConstDataRange value);
/**
* ECCDerivedFromDataToken = HMAC(ECCToken, v) = K^{ecc}_{f,v}
*/
static ECCDerivedFromDataToken generateECCDerivedFromDataToken(ECCToken token,
ConstDataRange value);
};
/**
* Generate tokens for the various collections derived from the user data and a contention factor.
*/
class FLEDerivedFromDataTokenAndContentionFactorTokenGenerator {
public:
/**
* EDCDerivedFromDataTokenAndContentionFactorToken = HMAC(EDCDerivedFromDataToken, u)
*/
static EDCDerivedFromDataTokenAndContentionFactorToken
generateEDCDerivedFromDataTokenAndContentionFactorToken(EDCDerivedFromDataToken token,
FLECounter counter);
/**
* ESCDerivedFromDataTokenAndContentionFactorToken = HMAC(ESCDerivedFromDataToken, u)
*/
static ESCDerivedFromDataTokenAndContentionFactorToken
generateESCDerivedFromDataTokenAndContentionFactorToken(ESCDerivedFromDataToken token,
FLECounter counter);
/**
* ECCDerivedFromDataTokenAndContentionFactorToken = HMAC(ECCDerivedFromDataToken, u)
*/
static ECCDerivedFromDataTokenAndContentionFactorToken
generateECCDerivedFromDataTokenAndContentionFactorToken(ECCDerivedFromDataToken token,
FLECounter counter);
};
/**
* Generate tokens for the various collections derived from counter tokens.
*/
class FLETwiceDerivedTokenGenerator {
public:
/**
* EDCTwiceDerivedToken = HMAC(EDCDerivedFromDataTokenAndContentionFactorToken, 1)
*/
static EDCTwiceDerivedToken generateEDCTwiceDerivedToken(
EDCDerivedFromDataTokenAndContentionFactorToken token);
/**
* ESCTwiceDerivedTagToken = HMAC(ESCDerivedFromDataTokenAndContentionFactorToken, 1)
*/
static ESCTwiceDerivedTagToken generateESCTwiceDerivedTagToken(
ESCDerivedFromDataTokenAndContentionFactorToken token);
/**
* ESCTwiceDerivedValueToken = HMAC(ESCDerivedFromDataTokenAndContentionFactorToken, 2)
*/
static ESCTwiceDerivedValueToken generateESCTwiceDerivedValueToken(
ESCDerivedFromDataTokenAndContentionFactorToken token);
/**
* ECCTwiceDerivedTagToken = HMAC(ECCDerivedFromDataTokenAndContentionFactorToken, 1)
*/
static ECCTwiceDerivedTagToken generateECCTwiceDerivedTagToken(
ECCDerivedFromDataTokenAndContentionFactorToken token);
/**
* ECCTwiceDerivedValueToken = HMAC(ECCDerivedFromDataTokenAndContentionFactorToken, 2)
*/
static ECCTwiceDerivedValueToken generateECCTwiceDerivedValueToken(
ECCDerivedFromDataTokenAndContentionFactorToken token);
};
/**
* ESC Collection schema
* {
* _id : HMAC(ESCTwiceDerivedTagToken, type || pos )
* value : Encrypt(ESCTwiceDerivedValueToken, count_type || count)
* }
*
* where
* type = uint64_t
* pos = uint64_t
* count_type = uint64_t
* count = uint64_t
* - Note: There is a lifetime limit of 2^64 - 1 count of a value/pairs for an index
*
* where type
* 0 - null record
* 1 - insert record, positional record, or compaction record
*
* where count_type:
* 0 - regular count
* [1, UINT64_MAX) = position
* UINT64_MAX - compaction placeholder
*
* Record types:
*
* Document Counts
* Null: 0 or 1
* Insert: 0 or more
* Positional: 0 or more
* Compaction: 0 or 1
*
* Null record:
* {
* _id : HMAC(ESCTwiceDerivedTagToken, null )
* value : Encrypt(ESCTwiceDerivedValueToken, pos || count)
* }
*
* Insert record:
* {
* _id : HMAC(ESCTwiceDerivedTagToken, pos )
* value : Encrypt(ESCTwiceDerivedValueToken, 0 || count)
* }
*
* Positional record:
* {
* _id : HMAC(ESCTwiceDerivedTagToken, pos )
* value : Encrypt(ESCTwiceDerivedValueToken, pos' || count)
* }
*
* Compaction placeholder record:
* {
* _id : HMAC(ESCTwiceDerivedTagToken, pos )
* value : Encrypt(ESCTwiceDerivedValueToken, UINT64_MAX || 0)
* }
*
* PlainText of _id
* struct {
* uint64_t type;
* uint64_t pos;
* }
*
* PlainText of value
* struct {
* uint64_t count_type;
* uint64_t count;
* }
*/
struct ESCNullDocument {
// Id is not included as it is HMAC generated and cannot be reversed
uint64_t position;
uint64_t count;
};
struct ESCDocument {
// Id is not included as it is HMAC generated and cannot be reversed
bool compactionPlaceholder;
uint64_t position;
uint64_t count;
};
/**
* Interface for reading from a collection for the "EmuBinary" algorithm
*/
class FLEStateCollectionReader {
public:
virtual ~FLEStateCollectionReader() = default;
/**
* Get a count of documents in the collection.
*/
virtual uint64_t getDocumentCount() const = 0;
/**
* Get a document by its _id.
*/
virtual BSONObj getById(PrfBlock block) const = 0;
};
class ESCCollection {
public:
/**
* Generate the _id value
*/
static PrfBlock generateId(ESCTwiceDerivedTagToken tagToken, boost::optional<uint64_t> index);
/**
* Generate a null document which will be the "first" document for a given field.
*/
static BSONObj generateNullDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t pos,
uint64_t count);
/**
* Generate a insert ESC document.
*/
static BSONObj generateInsertDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t index,
uint64_t count);
/**
* Generate a compaction placeholder ESC document.
*/
static BSONObj generateCompactionPlaceholderDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t index,
uint64_t count);
/**
* Decrypt the null document.
*/
static StatusWith<ESCNullDocument> decryptNullDocument(ESCTwiceDerivedValueToken valueToken,
BSONObj& doc);
/**
* Decrypt the null document.
*/
static StatusWith<ESCNullDocument> decryptNullDocument(ESCTwiceDerivedValueToken valueToken,
BSONObj&& doc);
/**
* Decrypt a regular document.
*/
static StatusWith<ESCDocument> decryptDocument(ESCTwiceDerivedValueToken valueToken,
BSONObj& doc);
/**
* Decrypt a regular document.
*/
static StatusWith<ESCDocument> decryptDocument(ESCTwiceDerivedValueToken valueToken,
BSONObj&& doc);
/**
* Search for the highest document id for a given field/value pair based on the token.
*/
static boost::optional<uint64_t> emuBinary(const FLEStateCollectionReader& reader,
ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken);
};
/**
* ECC Collection
* - a record of deleted documents
*
* {
* _id : HMAC(ECCTwiceDerivedTagToken, type || pos )
* value : Encrypt(ECCTwiceDerivedValueToken, (count || count) OR (start || end))
* }
*
* where
* type = uint64_t
* pos = uint64_t
* value is either:
* count, count = uint64_t // Null records
* OR
* start = uint64_t // Other records
* end = uint64_t
*
* where type:
* 0 - null record
* 1 - regular record or compaction record
*
* where start and end:
* [1..UINT_64_MAX) - regular start and end
* UINT64_MAX - compaction placeholder
*
* Record types:
*
* Document Counts
* Null: 0 or 1
* Regular: 0 or more
* Compaction: 0 or 1
*
* Null record:
* {
* _id : HMAC(ECCTwiceDerivedTagToken, null )
* value : Encrypt(ECCTwiceDerivedValueToken, count || count)
* }
*
* Regular record:
* {
* _id : HMAC(ECCTwiceDerivedTagToken, pos )
* value : Encrypt(ECCTwiceDerivedValueToken, start || end)
* }
*
* Compaction placeholder record:
* {
* _id : HMAC(ECCTwiceDerivedTagToken, pos )
* value : Encrypt(ECCTwiceDerivedValueToken, UINT64_MAX || UINT64_MAX)
* }
*
* PlainText of tag
* struct {
* uint64_t type;
* uint64_t pos;
* }
*
* PlainText of value for null records
* struct {
* uint64_t count;
* uint64_t ignored;
* }
*
* PlainText of value for non-null records
* struct {
* uint64_t start;
* uint64_t end;
* }
*/
enum class ECCValueType : uint64_t {
kNormal = 0,
kCompactionPlaceholder = 1,
};
struct ECCNullDocument {
// Id is not included as it HMAC generated and cannot be reversed
uint64_t position;
};
struct ECCDocument {
// Id is not included as it HMAC generated and cannot be reversed
ECCValueType valueType;
uint64_t start;
uint64_t end;
};
inline bool operator==(const ECCDocument& left, const ECCDocument& right) {
return (left.valueType == right.valueType && left.start == right.start &&
left.end == right.end);
}
inline bool operator<(const ECCDocument& left, const ECCDocument& right) {
if (left.start == right.start) {
if (left.end == right.end) {
return left.valueType < right.valueType;
}
return left.end < right.end;
}
return left.start < right.start;
}
class ECCCollection {
public:
/**
* Generate the _id value
*/
static PrfBlock generateId(ECCTwiceDerivedTagToken tagToken, boost::optional<uint64_t> index);
/**
* Generate a null document which will be the "first" document for a given field.
*/
static BSONObj generateNullDocument(ECCTwiceDerivedTagToken tagToken,
ECCTwiceDerivedValueToken valueToken,
uint64_t count);
/**
* Generate a regular ECC document for (count).
*
* Note: it is stored as (count, count)
*/
static BSONObj generateDocument(ECCTwiceDerivedTagToken tagToken,
ECCTwiceDerivedValueToken valueToken,
uint64_t index,
uint64_t count);
/**
* Generate a regular ECC document for (start, end)
*/
static BSONObj generateDocument(ECCTwiceDerivedTagToken tagToken,
ECCTwiceDerivedValueToken valueToken,
uint64_t index,
uint64_t start,
uint64_t end);
/**
* Generate a compaction ECC document.
*/
static BSONObj generateCompactionDocument(ECCTwiceDerivedTagToken tagToken,
ECCTwiceDerivedValueToken valueToken,
uint64_t index);
/**
* Decrypt the null document.
*/
static StatusWith<ECCNullDocument> decryptNullDocument(ECCTwiceDerivedValueToken valueToken,
const BSONObj& doc);
/**
* Decrypt a regular document.
*/
static StatusWith<ECCDocument> decryptDocument(ECCTwiceDerivedValueToken valueToken,
const BSONObj& doc);
/**
* Search for the highest document id for a given field/value pair based on the token.
*/
static boost::optional<uint64_t> emuBinary(const FLEStateCollectionReader& reader,
ECCTwiceDerivedTagToken tagToken,
ECCTwiceDerivedValueToken valueToken);
};
/**
* Type safe abstraction over the key vault to support unit testing. Used by the various decryption
* routines to retrieve the correct keys.
*
* Keys are identified by UUID in the key vault.
*/
class FLEKeyVault {
public:
virtual ~FLEKeyVault();
FLEUserKeyAndId getUserKeyById(const UUID& uuid) {
return getKeyById<FLEKeyType::User>(uuid);
}
FLEIndexKeyAndId getIndexKeyById(const UUID& uuid) {
return getKeyById<FLEKeyType::Index>(uuid);
}
protected:
virtual KeyMaterial getKey(const UUID& uuid) = 0;
private:
template <FLEKeyType KeyT>
FLEKeyAndId<KeyT> getKeyById(const UUID& uuid) {
auto keyMaterial = getKey(uuid);
return FLEKeyAndId<KeyT>(keyMaterial, uuid);
}
};
using ContentionFactorFn = std::function<uint64_t(const FLE2EncryptionPlaceholder&)>;
class FLEClientCrypto {
public:
/**
* Explicit encrypt a single value into a placeholder.
*
* Returns FLE2InsertUpdate payload
*/
static std::vector<uint8_t> encrypt(BSONElement element,
FLEIndexKeyAndId indexKey,
FLEUserKeyAndId userKey,
FLECounter counter);
/**
* Explicit decrypt a single value into type and value
*
* Supports decrypting FLE2IndexedEqualityEncryptedValue
*/
static std::pair<BSONType, std::vector<uint8_t>> decrypt(ConstDataRange cdr,
FLEKeyVault* keyVault);
static std::pair<BSONType, std::vector<uint8_t>> decrypt(BSONElement element,
FLEKeyVault* keyVault);
static FLE2FindEqualityPayload parseFindPayload(ConstDataRange cdr);
static FLE2FindEqualityPayload serializeFindPayload(FLEIndexKeyAndId indexKey,
FLEUserKeyAndId userKey,
BSONElement element,
uint64_t maxContentionFactor);
static FLE2FindRangePayload serializeFindRangePayload(FLEIndexKeyAndId indexKey,
FLEUserKeyAndId userKey,
const std::vector<std::string>& edges,
uint64_t maxContentionFactor);
/**
* Generates a client-side payload that is sent to the server.
*
* Input is a document with FLE2EncryptionPlaceholder placeholders.
*
* For each field, transforms the field into BinData 6 with a prefix byte of 4
*
* {
* d : EDCDerivedFromDataTokenAndContentionFactorToken
* s : ESCDerivedFromDataTokenAndContentionFactorToken
* c : ECCDerivedFromDataTokenAndContentionFactorToken
* p : Encrypt(ECOCToken, ESCDerivedFromDataTokenAndContentionFactorToken ||
* ECCDerivedFromDataTokenAndContentionFactorToken) v : Encrypt(K_KeyId, value),
* e : ServerDataEncryptionLevel1Token,
* }
*/
static BSONObj transformPlaceholders(const BSONObj& obj, FLEKeyVault* keyVault);
/**
* Generates a client-side payload that is sent to the server. Contention factor is given
* explicitly as a lambda expression.
*/
static BSONObj transformPlaceholders(const BSONObj& obj,
FLEKeyVault* keyVault,
const ContentionFactorFn& contentionFactor);
/**
* For every encrypted field path in the EncryptedFieldConfig, this generates
* a compaction token derived from the field's index key, which is retrieved from
* the supplied FLEKeyVault using the field's key ID.
*
* Returns a BSON object mapping the encrypted field path to its compaction token,
* which is a general BinData value.
*/
static BSONObj generateCompactionTokens(const EncryptedFieldConfig& cfg, FLEKeyVault* keyVault);
/**
* Decrypts a document. Only supports FLE2.
*/
static BSONObj decryptDocument(BSONObj& doc, FLEKeyVault* keyVault);
/**
* Validate the tags array exists and is of the right type.
*/
static void validateTagsArray(const BSONObj& doc);
/**
* Validate document
*
* Checks performed
* 1. Fields, if present, are indexed the way specified
* 2. All fields can be decrypted successfully
* 3. There is a tag for each field and no extra tags
*/
static void validateDocument(const BSONObj& doc,
const EncryptedFieldConfig& efc,
FLEKeyVault* keyVault);
};
/*
* Values of ECOC documents
*
* Encrypt(ECOCToken, ESCDerivedFromDataTokenAndContentionFactorToken ||
* ECCDerivedFromDataTokenAndContentionFactorToken)
*
* struct {
* uint8_t[32] esc;
* uint8_t[32] ecc;
* }
*/
struct EncryptedStateCollectionTokens {
public:
EncryptedStateCollectionTokens(ESCDerivedFromDataTokenAndContentionFactorToken s,
ECCDerivedFromDataTokenAndContentionFactorToken c)
: esc(s), ecc(c) {}
static StatusWith<EncryptedStateCollectionTokens> decryptAndParse(ECOCToken token,
ConstDataRange cdr);
StatusWith<std::vector<uint8_t>> serialize(ECOCToken token);
ESCDerivedFromDataTokenAndContentionFactorToken esc;
ECCDerivedFromDataTokenAndContentionFactorToken ecc;
};
struct ECOCCompactionDocument {
bool operator==(const ECOCCompactionDocument& other) const {
return (fieldName == other.fieldName) && (esc == other.esc) && (ecc == other.ecc);
}
template <typename H>
friend H AbslHashValue(H h, const ECOCCompactionDocument& doc) {
return H::combine(std::move(h), doc.fieldName, doc.esc, doc.ecc);
}
// Id is not included as it unimportant
std::string fieldName;
ESCDerivedFromDataTokenAndContentionFactorToken esc;
ECCDerivedFromDataTokenAndContentionFactorToken ecc;
};
/**
* ECOC Collection schema
* {
* _id : ObjectId() -- omitted so MongoDB can auto choose it
* fieldName : String,S
* value : Encrypt(ECOCToken, ESCDerivedFromDataTokenAndContentionFactorToken ||
* ECCDerivedFromDataTokenAndContentionFactorToken)
* }
*
* where
* value comes from client, see EncryptedStateCollectionTokens or
* FLE2InsertUpdatePayload.getEncryptedTokens()
*
* Note:
* - ECOC is a set of documents, they are unordered
*/
class ECOCCollection {
public:
static BSONObj generateDocument(StringData fieldName, ConstDataRange payload);
static ECOCCompactionDocument parseAndDecrypt(const BSONObj& doc, ECOCToken token);
};
/**
* Class to read/write FLE2 Equality Indexed Encrypted Values
*
* Fields are encrypted with the following:
*
* struct {
* uint8_t fle_blob_subtype = 7;
* uint8_t key_uuid[16];
* uint8 original_bson_type;
* ciphertext[ciphertext_length];
* }
*
* Encrypt(ServerDataEncryptionLevel1Token, Struct(K_KeyId, v, count, d, s, c))
*
* struct {
* uint64_t length;
* uint8_t[length] cipherText; // UserKeyId + Encrypt(K_KeyId, value),
* uint64_t counter;
* uint8_t[32] edc; // EDCDerivedFromDataTokenAndContentionFactorToken
* uint8_t[32] esc; // ESCDerivedFromDataTokenAndContentionFactorToken
* uint8_t[32] ecc; // ECCDerivedFromDataTokenAndContentionFactorToken
*}
*/
struct FLE2IndexedEqualityEncryptedValue {
FLE2IndexedEqualityEncryptedValue(FLE2InsertUpdatePayload payload, uint64_t counter);
FLE2IndexedEqualityEncryptedValue(EDCDerivedFromDataTokenAndContentionFactorToken edcParam,
ESCDerivedFromDataTokenAndContentionFactorToken escParam,
ECCDerivedFromDataTokenAndContentionFactorToken eccParam,
uint64_t countParam,
BSONType typeParam,
UUID indexKeyIdParam,
std::vector<uint8_t> serializedServerValueParam);
static StatusWith<FLE2IndexedEqualityEncryptedValue> decryptAndParse(
ServerDataEncryptionLevel1Token token, ConstDataRange serializedServerValue);
/**
* Read the key id from the payload.
*/
static StatusWith<UUID> readKeyId(ConstDataRange serializedServerValue);
StatusWith<std::vector<uint8_t>> serialize(ServerDataEncryptionLevel1Token token);
EDCDerivedFromDataTokenAndContentionFactorToken edc;
ESCDerivedFromDataTokenAndContentionFactorToken esc;
ECCDerivedFromDataTokenAndContentionFactorToken ecc;
uint64_t count;
BSONType bsonType;
UUID indexKeyId;
std::vector<uint8_t> clientEncryptedValue;
};
/**
* Class to read/write FLE2 Unindexed Encrypted Values
*
* Fields are encrypted with the following:
*
* struct {
* uint8_t fle_blob_subtype = 6;
* uint8_t key_uuid[16];
* uint8 original_bson_type;
* ciphertext[ciphertext_length];
* } blob;
*
*/
struct FLE2UnindexedEncryptedValue {
static std::vector<uint8_t> serialize(const FLEUserKeyAndId& userKey,
const BSONElement& element);
static std::pair<BSONType, std::vector<uint8_t>> deserialize(FLEKeyVault* keyVault,
ConstDataRange blob);
static constexpr size_t assocDataSize = sizeof(uint8_t) + sizeof(UUID) + sizeof(uint8_t);
};
struct FLEEdgeToken {
EDCDerivedFromDataTokenAndContentionFactorToken edc;
ESCDerivedFromDataTokenAndContentionFactorToken esc;
ECCDerivedFromDataTokenAndContentionFactorToken ecc;
};
/**
* Class to read/write FLE2 Range Indexed Encrypted Values
*
* Fields are encrypted with the following:
*
* struct {
* uint8_t fle_blob_subtype = 9;
* uint8_t key_uuid[16];
* uint8 original_bson_type;
* ciphertext[ciphertext_length];
* }
*
* Encrypt(ServerDataEncryptionLevel1Token, Struct(K_KeyId, v, edgeCount, [count, d, s, c] x
*edgeCount ))
*
* struct {
* uint64_t length;
* uint8_t[length] cipherText; // UserKeyId + Encrypt(K_KeyId, value),
* uint32_t edgeCount;
* struct {
* uint64_t counter;
* uint8_t[32] edc; // EDCDerivedFromDataTokenAndContentionFactorToken
* uint8_t[32] esc; // ESCDerivedFromDataTokenAndContentionFactorToken
* uint8_t[32] ecc; // ECCDerivedFromDataTokenAndContentionFactorToken
* } edges[edgeCount];
*}
*/
struct FLE2IndexedRangeEncryptedValue {
FLE2IndexedRangeEncryptedValue(FLE2InsertUpdatePayload payload,
std::vector<uint64_t> countersParam);
FLE2IndexedRangeEncryptedValue(std::vector<FLEEdgeToken> tokens,
std::vector<uint64_t> countersParam,
BSONType typeParam,
UUID indexKeyIdParam,
std::vector<uint8_t> serializedServerValueParam);
static StatusWith<FLE2IndexedRangeEncryptedValue> decryptAndParse(
ServerDataEncryptionLevel1Token token, ConstDataRange serializedServerValue);
/**
* Read the key id from the payload.
*/
static StatusWith<UUID> readKeyId(ConstDataRange serializedServerValue);
StatusWith<std::vector<uint8_t>> serialize(ServerDataEncryptionLevel1Token token);
std::vector<FLEEdgeToken> tokens;
std::vector<uint64_t> counters;
BSONType bsonType;
UUID indexKeyId;
std::vector<uint8_t> clientEncryptedValue;
};
struct EDCServerPayloadInfo {
ESCDerivedFromDataTokenAndContentionFactorToken getESCToken() const;
FLE2InsertUpdatePayload payload;
std::string fieldPathName;
std::vector<uint64_t> counts;
};
struct EDCIndexedFields {
ConstDataRange value;
std::string fieldPathName;
};
inline bool operator<(const EDCIndexedFields& left, const EDCIndexedFields& right) {
if (left.fieldPathName == right.fieldPathName) {
if (left.value.length() != right.value.length()) {
return left.value.length() < right.value.length();
}
if (left.value.length() == 0 && right.value.length() == 0) {
return false;
}
return memcmp(left.value.data(), right.value.data(), left.value.length()) < 0;
}
return left.fieldPathName < right.fieldPathName;
}
struct FLEDeleteToken {
ECOCToken ecocToken;
ServerDataEncryptionLevel1Token serverEncryptionToken;
};
/**
* Manipulates the EDC collection.
*
* To finalize a document for insertion
*
* 1. Get all the encrypted fields that need counters via getEncryptedFieldInfo()
* 2. Choose counters
* 3. Finalize the insertion with finalizeForInsert().
*/
class EDCServerCollection {
public:
/**
* Validate that payload is compatible with schema
*/
static void validateEncryptedFieldInfo(BSONObj& obj,
const EncryptedFieldConfig& efc,
bool bypassDocumentValidation);
/**
* Get information about all FLE2InsertUpdatePayload payloads
*/
static std::vector<EDCServerPayloadInfo> getEncryptedFieldInfo(BSONObj& obj);
static StatusWith<FLE2IndexedEqualityEncryptedValue> decryptAndParse(
ServerDataEncryptionLevel1Token token, ConstDataRange serializedServerValue);
static StatusWith<FLE2IndexedEqualityEncryptedValue> decryptAndParse(
ConstDataRange token, ConstDataRange serializedServerValue);
static StatusWith<FLE2IndexedRangeEncryptedValue> decryptAndParseRange(
ConstDataRange token, ConstDataRange serializedServerValue);
/**
* Generate a search tag
*
* HMAC(EDCTwiceDerivedToken, count)
*/
static PrfBlock generateTag(EDCTwiceDerivedToken edcTwiceDerived, FLECounter count);
static PrfBlock generateTag(const EDCServerPayloadInfo& payload);
static PrfBlock generateTag(const FLE2IndexedEqualityEncryptedValue& indexedValue);
static PrfBlock generateTag(const FLEEdgeToken& token, FLECounter count);
static std::vector<PrfBlock> generateTags(const FLE2IndexedRangeEncryptedValue& indexedValue);
/**
* Generate all the EDC tokens
*/
static std::vector<EDCDerivedFromDataTokenAndContentionFactorToken> generateEDCTokens(
EDCDerivedFromDataToken token, uint64_t maxContentionFactor);
static std::vector<EDCDerivedFromDataTokenAndContentionFactorToken> generateEDCTokens(
ConstDataRange rawToken, uint64_t maxContentionFactor);
/**
* Consumes a payload from a MongoDB client for insert.
*
* Converts FLE2InsertUpdatePayload to a final insert payload and updates __safeContent__ with
* new tags.
*/
static BSONObj finalizeForInsert(const BSONObj& doc,
const std::vector<EDCServerPayloadInfo>& serverPayload);
/**
* Consumes a payload from a MongoDB client for update, modifier update style.
*
* Converts any FLE2InsertUpdatePayload found to the final insert payload. Adds or updates the
* the existing $push to add __safeContent__ tags.
*/
static BSONObj finalizeForUpdate(const BSONObj& doc,
const std::vector<EDCServerPayloadInfo>& serverPayload);
/**
* Generate an update modifier document with $pull to remove stale tags.
*
* Generates:
*
* { $pull : {__safeContent__ : {$in : [tag..] } } }
*/
static BSONObj generateUpdateToRemoveTags(const std::vector<EDCIndexedFields>& removedFields,
const StringMap<FLEDeleteToken>& tokenMap);
/**
* Get a list of encrypted, indexed fields.
*/
static std::vector<EDCIndexedFields> getEncryptedIndexedFields(BSONObj& obj);
/**
* Get a list of tags to remove and add.
*
* An update is performed in two steps:
* 1. Perform the update of the encrypted fields
* - After step 1, the updated fields are correct, new tags have been added to
* __safeContent__ but the __safeContent__ still contains stale tags.
* 2. Remove the old tags
*
* To do step 2, we need a list of removed tags. To do this we get a list of indexed encrypted
* fields in both and subtract the fields in the newDocument from originalDocument. The
* remaining fields are the ones we need to remove.
*/
static std::vector<EDCIndexedFields> getRemovedTags(
std::vector<EDCIndexedFields>& originalDocument,
std::vector<EDCIndexedFields>& newDocument);
};
class EncryptionInformationHelpers {
public:
/**
* Serialize EncryptedFieldConfig to a EncryptionInformation with
* EncryptionInformation.schema = { nss: EncryptedFieldConfig}
*/
static BSONObj encryptionInformationSerialize(const NamespaceString& nss,
const EncryptedFieldConfig& ef);
static BSONObj encryptionInformationSerialize(const NamespaceString& nss,
const BSONObj& encryptedFields);
/**
* Serialize EncryptionInformation with EncryptionInformation.schema and a map of delete tokens
* for each field in EncryptedFieldConfig.
*/
static BSONObj encryptionInformationSerializeForDelete(const NamespaceString& nss,
const EncryptedFieldConfig& ef,
FLEKeyVault* keyVault);
/**
* Get a schema from EncryptionInformation and ensure the esc/ecc/ecoc are setup correctly.
*/
static EncryptedFieldConfig getAndValidateSchema(const NamespaceString& nss,
const EncryptionInformation& ei);
/**
* Get a set of delete tokens for a given nss from EncryptionInformation.
*/
static StringMap<FLEDeleteToken> getDeleteTokens(const NamespaceString& nss,
const EncryptionInformation& ei);
};
/**
* A parsed element in the compaction tokens BSON object from
* a compactStructuredEncryptionData command
*/
struct CompactionToken {
std::string fieldPathName;
ECOCToken token;
};
class CompactionHelpers {
public:
/**
* Converts the compaction tokens BSON object that contains encrypted
* field paths as the key, and ECOC tokens as the value, to a list of
* string and ECOCToken pairs.
*/
static std::vector<CompactionToken> parseCompactionTokens(BSONObj compactionTokens);
/**
* Validates the compaction tokens BSON contains an element for each field
* in the encrypted field config
*/
static void validateCompactionTokens(const EncryptedFieldConfig& efc, BSONObj compactionTokens);
/**
* Merges the list of ECCDocuments so that entries whose tuple values are
* adjacent to each other are combined into a single entry. For example,
* the input [ (1,3), (11,11), (7,9), (4,6) ] outputs [ (1,9), (11,11) ].
* Assumes none of the input entries overlap with each other.
*
* This will sort the input unmerged list as a side-effect.
*/
static std::vector<ECCDocument> mergeECCDocuments(std::vector<ECCDocument>& unmerged);
/**
* Given a list of ECCDocument, where each document is a range of
* deleted positions, this calculates the total number of deleted
* positions.
*/
static uint64_t countDeleted(const std::vector<ECCDocument>& rangeList);
};
/**
* Split a ConstDataRange into a byte for EncryptedBinDataType and a ConstDataRange for the trailing
* bytes
*
* Verifies that EncryptedBinDataType is valid.
*/
std::pair<EncryptedBinDataType, ConstDataRange> fromEncryptedConstDataRange(ConstDataRange cdr);
struct ParsedFindPayload {
ESCDerivedFromDataToken escToken;
ECCDerivedFromDataToken eccToken;
EDCDerivedFromDataToken edcToken;
boost::optional<ServerDataEncryptionLevel1Token> serverToken;
boost::optional<std::int64_t> maxCounter;
explicit ParsedFindPayload(BSONElement fleFindPayload);
explicit ParsedFindPayload(const Value& fleFindPayload);
explicit ParsedFindPayload(ConstDataRange cdr);
};
/**
* FLE2 Range Utility functions
*/
/**
* Describe the encoding of an BSON int32
*
* NOTE: It is not a mistake that a int32 is encoded as uint32.
*/
struct OSTType_Int32 {
OSTType_Int32(uint32_t v, uint32_t minP, uint32_t maxP) : value(v), min(minP), max(maxP) {}
uint32_t value;
uint32_t min;
uint32_t max;
};
OSTType_Int32 getTypeInfo32(int32_t value,
boost::optional<int32_t> min,
boost::optional<int32_t> max);
/**
* Describe the encoding of an BSON int64
*
* NOTE: It is not a mistake that a int64 is encoded as uint64.
*/
struct OSTType_Int64 {
OSTType_Int64(uint64_t v, uint64_t minP, uint64_t maxP) : value(v), min(minP), max(maxP) {}
uint64_t value;
uint64_t min;
uint64_t max;
};
OSTType_Int64 getTypeInfo64(int64_t value,
boost::optional<int64_t> min,
boost::optional<int64_t> max);
/**
* Describe the encoding of an BSON double (i.e. IEEE 754 Binary64)
*
* NOTE: It is not a mistake that a double is encoded as uint64.
*/
struct OSTType_Double {
OSTType_Double(uint64_t v, uint64_t minP, uint64_t maxP) : value(v), min(minP), max(maxP) {}
uint64_t value;
uint64_t min;
uint64_t max;
};
OSTType_Double getTypeInfoDouble(double value,
boost::optional<double> min,
boost::optional<double> max);
struct FLEFindEdgeTokenSet {
EDCDerivedFromDataToken edc;
ESCDerivedFromDataToken esc;
ECCDerivedFromDataToken ecc;
};
struct ParsedFindRangePayload {
std::vector<FLEFindEdgeTokenSet> edges;
ServerDataEncryptionLevel1Token serverToken;
std::int64_t maxCounter;
explicit ParsedFindRangePayload(BSONElement fleFindRangePayload);
explicit ParsedFindRangePayload(const Value& fleFindRangePayload);
explicit ParsedFindRangePayload(ConstDataRange cdr);
};
/**
* Edges calculator
*/
class Edges {
public:
Edges(std::string leaf, int sparsity);
std::vector<StringData> get();
private:
std::string _leaf;
int _sparsity;
};
std::unique_ptr<Edges> getEdgesInt32(int32_t value,
boost::optional<int32_t> min,
boost::optional<int32_t> max,
int sparsity);
std::unique_ptr<Edges> getEdgesInt64(int64_t value,
boost::optional<int64_t> min,
boost::optional<int64_t> max,
int sparsity);
std::unique_ptr<Edges> getEdgesDouble(double value,
boost::optional<double> min,
boost::optional<double> max,
int sparsity);
/**
* Mincover calculator
*/
std::vector<std::string> minCoverInt32(int32_t rangeMin,
int32_t rangeMax,
boost::optional<int32_t> min,
boost::optional<int32_t> max,
int sparsity);
std::vector<std::string> minCoverInt64(int64_t rangeMin,
int64_t rangeMax,
boost::optional<int64_t> min,
boost::optional<int64_t> max,
int sparsity);
std::vector<std::string> minCoverDouble(double rangeMin,
double rangeMax,
boost::optional<double> min,
boost::optional<double> max,
int sparsity);
/**
* Utility functions manipulating buffers.
*/
PrfBlock PrfBlockfromCDR(const ConstDataRange& block);
ConstDataRange binDataToCDR(BSONElement element);
template <typename T>
T parseFromCDR(ConstDataRange cdr) {
ConstDataRangeCursor cdc(cdr);
auto obj = cdc.readAndAdvance<Validated<BSONObj>>();
IDLParserContext ctx("root");
return T::parse(ctx, obj);
}
std::vector<uint8_t> toEncryptedVector(EncryptedBinDataType dt, const PrfBlock& block);
BSONBinData toBSONBinData(const std::vector<uint8_t>& buf);
std::pair<EncryptedBinDataType, ConstDataRange> fromEncryptedBinData(const Value& value);
bool hasQueryType(const EncryptedField& field, QueryTypeEnum queryType);
bool hasQueryType(const EncryptedFieldConfig& config, QueryTypeEnum queryType);
class EncryptedPredicateEvaluator {
public:
EncryptedPredicateEvaluator(ConstDataRange serverToken,
int64_t contentionFactor,
std::vector<ConstDataRange> edcTokens);
/**
* Evaluates an encrypted predicate (equality or range), as defined by a contention factor along
* with a list of edc tokens, over an encrypted value.
*
* Returns a boolean indicator.
*/
template <typename T>
bool evaluate(
Value fieldValue,
EncryptedBinDataType indexedValueType,
std::function<StatusWith<T>(ConstDataRange, ConstDataRange)> decryptAndParse) const {
if (fieldValue.getType() != BinData) {
return false;
}
auto fieldValuePair = fromEncryptedBinData(fieldValue);
uassert(
6672400, "Invalid encrypted indexed field", fieldValuePair.first == indexedValueType);
// Value matches if
// 1. Decrypt field is successful
// 2. EDC_u Token is in GenTokens(EDC Token, ContentionFactor)
//
auto swIndexed = decryptAndParse(ConstDataRange(_serverToken), fieldValuePair.second);
uassertStatusOK(swIndexed);
auto indexed = swIndexed.getValue();
return _cachedEDCTokens.count(indexed.edc.data) == 1;
}
std::vector<PrfBlock> edcTokens() const {
return _edcTokens;
}
PrfBlock serverToken() const {
return _serverToken;
}
int64_t contentionFactor() const {
return _contentionFactor;
}
private:
PrfBlock _serverToken;
std::vector<PrfBlock> _edcTokens;
int64_t _contentionFactor;
stdx::unordered_set<PrfBlock> _cachedEDCTokens;
};
} // namespace mongo
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