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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.
*/
#include "mongo/crypto/fle_crypto.h"
#include <algorithm>
#include <cmath>
#include <cstdint>
#include <functional>
#include <limits>
#include <memory>
#include <stack>
#include <string>
#include <tuple>
#include <type_traits>
#include <variant>
#include <vector>
#include "mongo/base/data_builder.h"
#include "mongo/base/data_range.h"
#include "mongo/base/data_range_cursor.h"
#include "mongo/base/data_type_endian.h"
#include "mongo/base/data_type_validated.h"
#include "mongo/base/data_view.h"
#include "mongo/base/error_codes.h"
#include "mongo/base/status.h"
#include "mongo/bson/bson_depth.h"
#include "mongo/bson/bsonobj.h"
#include "mongo/bson/bsonobjbuilder.h"
#include "mongo/bson/bsontypes.h"
#include "mongo/bson/util/bson_extract.h"
#include "mongo/bson/util/builder.h"
#include "mongo/crypto/aead_encryption.h"
#include "mongo/crypto/fle_data_frames.h"
#include "mongo/crypto/fle_field_schema_gen.h"
#include "mongo/crypto/sha256_block.h"
#include "mongo/crypto/symmetric_crypto.h"
#include "mongo/crypto/symmetric_key.h"
#include "mongo/db/matcher/schema/encrypt_schema_gen.h"
#include "mongo/idl/basic_types.h"
#include "mongo/idl/idl_parser.h"
#include "mongo/util/assert_util.h"
#include "mongo/util/scopeguard.h"
#include "mongo/util/str.h"
namespace mongo {
namespace {
constexpr uint64_t kLevel1Collection = 1;
constexpr uint64_t kLevel1ClientUserDataEncryption = 2;
constexpr uint64_t kLevelServerDataEncryption = 3;
constexpr uint64_t kEDC = 1;
constexpr uint64_t kESC = 2;
constexpr uint64_t kECC = 3;
constexpr uint64_t kECOC = 4;
constexpr uint64_t kTwiceDerivedTokenFromEDC = 1;
constexpr uint64_t kTwiceDerivedTokenFromESCTag = 1;
constexpr uint64_t kTwiceDerivedTokenFromESCValue = 2;
constexpr uint64_t kTwiceDerivedTokenFromECCTag = 1;
constexpr uint64_t kTwiceDerivedTokenFromECCValue = 2;
constexpr auto kECCNullId = 0;
constexpr auto kECCNonNullId = 1;
constexpr uint64_t kECCompactionRecordValue = std::numeric_limits<uint64_t>::max();
constexpr uint64_t kESCNullId = 0;
constexpr uint64_t kESCNonNullId = 1;
constexpr uint64_t KESCInsertRecordValue = 0;
constexpr uint64_t kESCompactionRecordValue = std::numeric_limits<uint64_t>::max();
constexpr uint64_t kESCompactionRecordCountPlaceholder = 0;
constexpr auto kId = "_id";
constexpr auto kValue = "value";
constexpr auto kFieldName = "fieldName";
constexpr auto kSafeContent = "__safeContent__";
using UUIDBuf = std::array<uint8_t, UUID::kNumBytes>;
static_assert(sizeof(PrfBlock) == SHA256Block::kHashLength);
static_assert(sizeof(KeyMaterial) == crypto::sym256KeySize);
PrfBlock blockToArray(SHA256Block& block) {
PrfBlock data;
memcpy(data.data(), block.data(), sizeof(PrfBlock));
return data;
}
PrfBlock prf(ConstDataRange key, ConstDataRange cdr) {
SHA256Block block;
SHA256Block::computeHmac(key.data<uint8_t>(), key.length(), {cdr}, &block);
return blockToArray(block);
}
PrfBlock prf(ConstDataRange key, uint64_t value) {
std::array<char, sizeof(uint64_t)> bufValue;
DataView(bufValue.data()).write<LittleEndian<uint64_t>>(value);
return prf(key, bufValue);
}
PrfBlock prf(ConstDataRange key, uint64_t value, int64_t value2) {
SHA256Block block;
std::array<char, sizeof(uint64_t)> bufValue;
DataView(bufValue.data()).write<LittleEndian<uint64_t>>(value);
std::array<char, sizeof(uint64_t)> bufValue2;
DataView(bufValue2.data()).write<LittleEndian<uint64_t>>(value2);
SHA256Block::computeHmac(key.data<uint8_t>(),
key.length(),
{
ConstDataRange{bufValue},
ConstDataRange{bufValue2},
},
&block);
return blockToArray(block);
}
ConstDataRange binDataToCDR(const BSONElement element) {
uassert(6338501, "Expected binData BSON element", element.type() == BinData);
int len;
const char* data = element.binData(len);
return ConstDataRange(data, data + len);
}
template <typename T>
void toBinData(StringData field, T t, BSONObjBuilder* builder) {
BSONObj obj = t.toBSON();
builder->appendBinData(field, obj.objsize(), BinDataType::BinDataGeneral, obj.objdata());
}
void toBinData(StringData field, PrfBlock block, BSONObjBuilder* builder) {
builder->appendBinData(field, block.size(), BinDataType::BinDataGeneral, block.data());
}
void toBinData(StringData field, ConstDataRange block, BSONObjBuilder* builder) {
builder->appendBinData(field, block.length(), BinDataType::BinDataGeneral, block.data());
}
void toBinData(StringData field, std::vector<uint8_t>& block, BSONObjBuilder* builder) {
builder->appendBinData(field, block.size(), BinDataType::BinDataGeneral, block.data());
}
/**
* AEAD AES + SHA256
* Block size = 16 bytes
* SHA-256 - block size = 256 bits = 32 bytes
*/
// TODO (SERVER-63382) - replace with call to CTR AEAD algorithm
StatusWith<std::vector<uint8_t>> encryptDataWithAssociatedData(ConstDataRange key,
ConstDataRange associatedData,
ConstDataRange plainText) {
std::array<uint8_t, sizeof(uint64_t)> dataLenBitsEncodedStorage;
DataRange dataLenBitsEncoded(dataLenBitsEncodedStorage);
dataLenBitsEncoded.write<BigEndian<uint64_t>>(
static_cast<uint64_t>(associatedData.length() * 8));
std::vector<uint8_t> out;
out.resize(crypto::aeadCipherOutputLength(plainText.length()));
// TODO - key is too short, we have 32, need 64. The new API should only 32 bytes and this can
// be removed
std::array<uint8_t, 64> bigToken;
std::copy(key.data(), key.data() + key.length(), bigToken.data());
std::copy(key.data(), key.data() + key.length(), bigToken.data() + key.length());
auto s = crypto::aeadEncryptWithIV(
bigToken, plainText, ConstDataRange(0, 0), associatedData, dataLenBitsEncoded, out);
if (!s.isOK()) {
return s;
}
return {out};
}
StatusWith<std::vector<uint8_t>> encryptData(ConstDataRange key, ConstDataRange plainText) {
return encryptDataWithAssociatedData(key, ConstDataRange(0, 0), plainText);
}
StatusWith<std::vector<uint8_t>> encryptData(ConstDataRange key, uint64_t value) {
std::array<char, sizeof(uint64_t)> bufValue;
DataView(bufValue.data()).write<LittleEndian<uint64_t>>(value);
return encryptData(key, bufValue);
}
// TODO (SERVER-63382) - replace with call to CTR AEAD algorithm
StatusWith<std::vector<uint8_t>> decryptDataWithAssociatedData(ConstDataRange key,
ConstDataRange associatedData,
ConstDataRange cipherText) {
// TODO - key is too short, we have 32, need 64. The new API should only 32 bytes and this can
// be removed
std::array<uint8_t, 64> bigToken;
std::copy(key.data(), key.data() + key.length(), bigToken.data());
std::copy(key.data(), key.data() + key.length(), bigToken.data() + key.length());
SymmetricKey sk(reinterpret_cast<const uint8_t*>(bigToken.data()),
bigToken.size(),
0,
SymmetricKeyId("ignore"),
0);
auto swLen = aeadGetMaximumPlainTextLength(cipherText.length());
if (!swLen.isOK()) {
return swLen.getStatus();
}
std::vector<uint8_t> out;
out.resize(swLen.getValue());
auto swOutLen = crypto::aeadDecrypt(sk, cipherText, associatedData, out);
if (!swOutLen.isOK()) {
return swOutLen.getStatus();
}
out.resize(swOutLen.getValue());
return out;
}
StatusWith<std::vector<uint8_t>> decryptData(ConstDataRange key, ConstDataRange cipherText) {
return decryptDataWithAssociatedData(key, ConstDataRange(0, 0), cipherText);
}
template <typename T>
struct FLEStoragePackTypeHelper;
template <>
struct FLEStoragePackTypeHelper<uint64_t> {
using Type = LittleEndian<uint64_t>;
};
template <>
struct FLEStoragePackTypeHelper<PrfBlock> {
using Type = PrfBlock;
};
template <typename T>
struct FLEStoragePackType {
// Note: the reference must be removed before the const
using Type =
typename FLEStoragePackTypeHelper<std::remove_const_t<std::remove_reference_t<T>>>::Type;
};
template <typename T1, typename T2, FLETokenType TokenT>
StatusWith<std::vector<uint8_t>> packAndEncrypt(std::tuple<T1, T2> tuple, FLEToken<TokenT> token) {
DataBuilder builder(sizeof(T1) + sizeof(T2));
Status s = builder.writeAndAdvance<typename FLEStoragePackType<T1>::Type>(std::get<0>(tuple));
if (!s.isOK()) {
return s;
}
s = builder.writeAndAdvance<typename FLEStoragePackType<T2>::Type>(std::get<1>(tuple));
if (!s.isOK()) {
return s;
}
dassert(builder.getCursor().length() == (sizeof(T1) + sizeof(T2)));
return encryptData(token.toCDR(), builder.getCursor());
}
template <typename T1, typename T2, FLETokenType TokenT>
StatusWith<std::tuple<T1, T2>> decryptAndUnpack(ConstDataRange cdr, FLEToken<TokenT> token) {
auto swVec = decryptData(token.toCDR(), cdr);
if (!swVec.isOK()) {
return swVec.getStatus();
}
auto& data = swVec.getValue();
ConstDataRangeCursor cdrc(data);
auto swt1 = cdrc.readAndAdvanceNoThrow<typename FLEStoragePackType<T1>::Type>();
if (!swt1.isOK()) {
return swt1.getStatus();
}
auto swt2 = cdrc.readAndAdvanceNoThrow<typename FLEStoragePackType<T2>::Type>();
if (!swt2.isOK()) {
return swt2.getStatus();
}
return std::tie(swt1.getValue(), swt2.getValue());
}
//#define DEBUG_ENUM_BINARY 1
template <typename collectionT, typename tagTokenT, typename valueTokenT>
uint64_t emuBinaryCommon(FLEStateCollectionReader* reader,
tagTokenT tagToken,
valueTokenT valueToken) {
// Default search parameters
uint64_t lambda = 0;
uint64_t i = 0;
// Step 2:
// Search for null record
PrfBlock nullRecordId = collectionT::generateId(tagToken, boost::none);
BSONObj nullDoc = reader->getById(nullRecordId);
if (!nullDoc.isEmpty()) {
auto swNullEscDoc = collectionT::decryptNullDocument(valueToken, nullDoc);
uassertStatusOK(swNullEscDoc.getStatus());
lambda = swNullEscDoc.getValue().pos + 1;
#ifdef DEBUG_ENUM_BINARY
std::cout << fmt::format("start: null_document: lambda {}, i: {}", lambda, i) << std::endl;
#endif
}
// step 4, 5: get document count
uint64_t rho = reader->getDocumentCount();
#ifdef DEBUG_ENUM_BINARY
std::cout << fmt::format("start: lambda: {}, i: {}, rho: {}", lambda, i, rho) << std::endl;
#endif
// step 6
bool flag = true;
// step 7
// TODO - this loop never terminates unless it finds a document, need to add a terminating
// condition
while (flag) {
// 7 a
BSONObj doc = reader->getById(collectionT::generateId(tagToken, rho + lambda));
#ifdef DEBUG_ENUM_BINARY
std::cout << fmt::format("search1: rho: {}, doc: {}", rho, doc.toString()) << std::endl;
#endif
// 7 b
if (!doc.isEmpty()) {
rho = 2 * rho;
} else {
flag = false;
}
}
// Step 8:
uint64_t median = 0, min = 1, max = rho;
// Step 9
uint64_t maxIterations = ceil(log2(rho));
#ifdef DEBUG_ENUM_BINARY
std::cout << fmt::format("start2: maxIterations {}", maxIterations) << std::endl;
#endif
for (uint64_t j = 1; j <= maxIterations; j++) {
// 9a
median = ceil(static_cast<double>(max - min) / 2) + min;
// 9b
BSONObj doc = reader->getById(collectionT::generateId(tagToken, median + lambda));
#ifdef DEBUG_ENUM_BINARY
std::cout << fmt::format("search_stat: min: {}, median: {}, max: {}, i: {}, doc: {}",
min,
median,
max,
i,
doc.toString())
<< std::endl;
#endif
// 9c
if (!doc.isEmpty()) {
// 9 c i
min = median;
// 9 c ii
if (j == maxIterations) {
i = min + lambda;
}
// 9d
} else {
// 9 d i
max = median;
// 9 d ii
// Binary search has ended without finding a document, check for the first document
// explicitly
if (j == maxIterations && min == 1) {
// 9 d ii A
BSONObj doc = reader->getById(collectionT::generateId(tagToken, 1 + lambda));
// 9 d ii B
if (!doc.isEmpty()) {
i = 1 + lambda;
}
} else if (j == maxIterations && min != 1) {
i = min + lambda;
}
}
}
return i;
}
} // namespace
CollectionsLevel1Token FLELevel1TokenGenerator::generateCollectionsLevel1Token(
FLEIndexKey indexKey) {
return prf(indexKey.data, kLevel1Collection);
}
ServerDataEncryptionLevel1Token FLELevel1TokenGenerator::generateServerDataEncryptionLevel1Token(
FLEIndexKey indexKey) {
return prf(indexKey.data, kLevelServerDataEncryption);
}
EDCToken FLECollectionTokenGenerator::generateEDCToken(CollectionsLevel1Token token) {
return prf(token.data, kEDC);
}
ESCToken FLECollectionTokenGenerator::generateESCToken(CollectionsLevel1Token token) {
return prf(token.data, kESC);
}
ECCToken FLECollectionTokenGenerator::generateECCToken(CollectionsLevel1Token token) {
return prf(token.data, kECC);
}
ECOCToken FLECollectionTokenGenerator::generateECOCToken(CollectionsLevel1Token token) {
return prf(token.data, kECOC);
}
EDCDerivedFromDataToken FLEDerivedFromDataTokenGenerator::generateEDCDerivedFromDataToken(
EDCToken token, ConstDataRange value) {
return prf(token.data, value);
}
ESCDerivedFromDataToken FLEDerivedFromDataTokenGenerator::generateESCDerivedFromDataToken(
ESCToken token, ConstDataRange value) {
return prf(token.data, value);
}
ECCDerivedFromDataToken FLEDerivedFromDataTokenGenerator::generateECCDerivedFromDataToken(
ECCToken token, ConstDataRange value) {
return prf(token.data, value);
}
EDCDerivedFromDataTokenAndContentionFactorToken
FLEDerivedFromDataTokenAndContentionFactorTokenGenerator::
generateEDCDerivedFromDataTokenAndContentionFactorToken(EDCDerivedFromDataToken token,
FLECounter counter) {
return prf(token.data, counter);
}
ESCDerivedFromDataTokenAndContentionFactorToken
FLEDerivedFromDataTokenAndContentionFactorTokenGenerator::
generateESCDerivedFromDataTokenAndContentionFactorToken(ESCDerivedFromDataToken token,
FLECounter counter) {
return prf(token.data, counter);
}
ECCDerivedFromDataTokenAndContentionFactorToken
FLEDerivedFromDataTokenAndContentionFactorTokenGenerator::
generateECCDerivedFromDataTokenAndContentionFactorToken(ECCDerivedFromDataToken token,
FLECounter counter) {
return prf(token.data, counter);
}
EDCTwiceDerivedToken FLETwiceDerivedTokenGenerator::generateEDCTwiceDerivedToken(
EDCDerivedFromDataTokenAndContentionFactorToken token) {
return prf(token.data, kTwiceDerivedTokenFromEDC);
}
ESCTwiceDerivedTagToken FLETwiceDerivedTokenGenerator::generateESCTwiceDerivedTagToken(
ESCDerivedFromDataTokenAndContentionFactorToken token) {
return prf(token.data, kTwiceDerivedTokenFromESCTag);
}
ESCTwiceDerivedValueToken FLETwiceDerivedTokenGenerator::generateESCTwiceDerivedValueToken(
ESCDerivedFromDataTokenAndContentionFactorToken token) {
return prf(token.data, kTwiceDerivedTokenFromESCValue);
}
ECCTwiceDerivedTagToken FLETwiceDerivedTokenGenerator::generateECCTwiceDerivedTagToken(
ECCDerivedFromDataTokenAndContentionFactorToken token) {
return prf(token.data, kTwiceDerivedTokenFromECCTag);
}
ECCTwiceDerivedValueToken FLETwiceDerivedTokenGenerator::generateECCTwiceDerivedValueToken(
ECCDerivedFromDataTokenAndContentionFactorToken token) {
return prf(token.data, kTwiceDerivedTokenFromECCValue);
}
PrfBlock ESCCollection::generateId(ESCTwiceDerivedTagToken tagToken,
boost::optional<uint64_t> index) {
if (index.has_value()) {
return prf(tagToken.data, kESCNonNullId, index.value());
} else {
return prf(tagToken.data, kESCNullId, 0);
}
}
BSONObj ESCCollection::generateNullDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t pos,
uint64_t count) {
auto block = ESCCollection::generateId(tagToken, boost::none);
auto swCipherText = packAndEncrypt(std::tie(pos, count), valueToken);
uassertStatusOK(swCipherText);
BSONObjBuilder builder;
toBinData(kId, block, &builder);
toBinData(kValue, swCipherText.getValue(), &builder);
return builder.obj();
}
BSONObj ESCCollection::generateInsertDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t index,
uint64_t count) {
auto block = ESCCollection::generateId(tagToken, index);
auto swCipherText = packAndEncrypt(std::tie(KESCInsertRecordValue, count), valueToken);
uassertStatusOK(swCipherText);
BSONObjBuilder builder;
toBinData(kId, block, &builder);
toBinData(kValue, swCipherText.getValue(), &builder);
return builder.obj();
}
BSONObj ESCCollection::generatePositionalDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t index,
uint64_t pos,
uint64_t count) {
auto block = ESCCollection::generateId(tagToken, index);
auto swCipherText = packAndEncrypt(std::tie(pos, count), valueToken);
uassertStatusOK(swCipherText);
BSONObjBuilder builder;
toBinData(kId, block, &builder);
toBinData(kValue, swCipherText.getValue(), &builder);
return builder.obj();
}
BSONObj ESCCollection::generateCompactionPlaceholderDocument(ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken,
uint64_t index) {
auto block = ESCCollection::generateId(tagToken, index);
auto swCipherText = packAndEncrypt(
std::tie(kESCompactionRecordValue, kESCompactionRecordCountPlaceholder), valueToken);
uassertStatusOK(swCipherText);
BSONObjBuilder builder;
toBinData(kId, block, &builder);
toBinData(kValue, swCipherText.getValue(), &builder);
return builder.obj();
}
StatusWith<ESCNullDocument> ESCCollection::decryptNullDocument(ESCTwiceDerivedValueToken valueToken,
BSONObj& doc) {
BSONElement encryptedValue;
auto status = bsonExtractTypedField(doc, kValue, BinData, &encryptedValue);
if (!status.isOK()) {
return status;
}
auto swUnpack = decryptAndUnpack<uint64_t, uint64_t>(binDataToCDR(encryptedValue), valueToken);
if (!swUnpack.isOK()) {
return swUnpack.getStatus();
}
auto& value = swUnpack.getValue();
return ESCNullDocument{std::get<0>(value), std::get<1>(value)};
}
StatusWith<ESCDocument> ESCCollection::decryptDocument(ESCTwiceDerivedValueToken valueToken,
BSONObj& doc) {
BSONElement encryptedValue;
auto status = bsonExtractTypedField(doc, kValue, BinData, &encryptedValue);
if (!status.isOK()) {
return status;
}
auto swUnpack = decryptAndUnpack<uint64_t, uint64_t>(binDataToCDR(encryptedValue), valueToken);
if (!swUnpack.isOK()) {
return swUnpack.getStatus();
}
auto& value = swUnpack.getValue();
return ESCDocument{
std::get<0>(value) == kESCompactionRecordValue, std::get<0>(value), std::get<1>(value)};
}
uint64_t ESCCollection::emuBinary(FLEStateCollectionReader* reader,
ESCTwiceDerivedTagToken tagToken,
ESCTwiceDerivedValueToken valueToken) {
return emuBinaryCommon<ESCCollection, ESCTwiceDerivedTagToken, ESCTwiceDerivedValueToken>(
reader, tagToken, valueToken);
}
} // namespace mongo
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