288 lines
10 KiB
C++
288 lines
10 KiB
C++
/*
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* AsyncFileEncrypted.actor.cpp
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*
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* This source file is part of the FoundationDB open source project
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*
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* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "fdbrpc/AsyncFileEncrypted.h"
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#include "flow/StreamCipher.h"
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#include "flow/UnitTest.h"
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#include "flow/xxhash.h"
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#include "flow/actorcompiler.h" // must be last include
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class AsyncFileEncryptedImpl {
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public:
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// Determine the initialization for the first block of a file based on a hash of
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// the filename.
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static auto getFirstBlockIV(const std::string& filename) {
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StreamCipher::IV iv;
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auto salt = basename(filename);
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auto pos = salt.find('.');
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salt = salt.substr(0, pos);
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auto hash = XXH3_128bits(salt.c_str(), salt.size());
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auto pHigh = reinterpret_cast<unsigned char*>(&hash.high64);
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auto pLow = reinterpret_cast<unsigned char*>(&hash.low64);
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std::copy(pHigh, pHigh + 8, &iv[0]);
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std::copy(pLow, pLow + 4, &iv[8]);
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uint32_t blockZero = 0;
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auto pBlock = reinterpret_cast<unsigned char*>(&blockZero);
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std::copy(pBlock, pBlock + 4, &iv[12]);
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return iv;
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}
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// Read a single block of size ENCRYPTION_BLOCK_SIZE bytes, and decrypt.
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ACTOR static Future<Standalone<StringRef>> readBlock(AsyncFileEncrypted* self, uint32_t block) {
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state Arena arena;
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state unsigned char* encrypted = new (arena) unsigned char[FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE];
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int bytes = wait(
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self->file->read(encrypted, FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE, FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE * block));
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StreamCipherKey const* cipherKey = StreamCipherKey::getGlobalCipherKey();
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DecryptionStreamCipher decryptor(cipherKey, self->getIV(block));
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auto decrypted = decryptor.decrypt(encrypted, bytes, arena);
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return Standalone<StringRef>(decrypted, arena);
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}
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ACTOR static Future<int> read(AsyncFileEncrypted* self, void* data, int length, int64_t offset) {
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state const uint32_t firstBlock = offset / FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE;
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state const uint32_t lastBlock = (offset + length - 1) / FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE;
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state uint32_t block;
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state unsigned char* output = reinterpret_cast<unsigned char*>(data);
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state int bytesRead = 0;
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ASSERT(self->mode == AsyncFileEncrypted::Mode::READ_ONLY);
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for (block = firstBlock; block <= lastBlock; ++block) {
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state Standalone<StringRef> plaintext;
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auto cachedBlock = self->readBuffers.get(block);
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if (cachedBlock.present()) {
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plaintext = cachedBlock.get();
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} else {
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wait(store(plaintext, readBlock(self, block)));
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self->readBuffers.insert(block, plaintext);
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}
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auto start = (block == firstBlock) ? plaintext.begin() + (offset % FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE)
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: plaintext.begin();
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auto end = (block == lastBlock)
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? plaintext.begin() + ((offset + length) % FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE)
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: plaintext.end();
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if ((offset + length) % FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE == 0) {
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end = plaintext.end();
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}
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// The block could be short if it includes or is after the end of the file.
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end = std::min(end, plaintext.end());
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// If the start position is at or after the end of the block, the read is complete.
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if (start == end || start >= plaintext.end()) {
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break;
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}
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std::copy(start, end, output);
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output += (end - start);
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bytesRead += (end - start);
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}
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return bytesRead;
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}
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ACTOR static Future<Void> write(AsyncFileEncrypted* self, void const* data, int length, int64_t offset) {
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ASSERT(self->mode == AsyncFileEncrypted::Mode::APPEND_ONLY);
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// All writes must append to the end of the file:
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ASSERT_EQ(offset, self->currentBlock * FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE + self->offsetInBlock);
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state unsigned char const* input = reinterpret_cast<unsigned char const*>(data);
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while (length > 0) {
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const auto chunkSize = std::min(length, FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE - self->offsetInBlock);
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Arena arena;
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auto encrypted = self->encryptor->encrypt(input, chunkSize, arena);
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std::copy(encrypted.begin(), encrypted.end(), &self->writeBuffer[self->offsetInBlock]);
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offset += encrypted.size();
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self->offsetInBlock += chunkSize;
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length -= chunkSize;
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input += chunkSize;
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if (self->offsetInBlock == FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE) {
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wait(self->writeLastBlockToFile());
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self->offsetInBlock = 0;
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ASSERT_LT(self->currentBlock, std::numeric_limits<uint32_t>::max());
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++self->currentBlock;
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self->encryptor = std::make_unique<EncryptionStreamCipher>(StreamCipherKey::getGlobalCipherKey(),
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self->getIV(self->currentBlock));
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}
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}
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return Void();
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}
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ACTOR static Future<Void> sync(AsyncFileEncrypted* self) {
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ASSERT(self->mode == AsyncFileEncrypted::Mode::APPEND_ONLY);
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wait(self->writeLastBlockToFile());
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wait(self->file->sync());
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return Void();
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}
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ACTOR static Future<Void> zeroRange(AsyncFileEncrypted* self, int64_t offset, int64_t length) {
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ASSERT(self->mode == AsyncFileEncrypted::Mode::APPEND_ONLY);
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// TODO: Could optimize this
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Arena arena;
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auto zeroes = new (arena) unsigned char[length];
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memset(zeroes, 0, length);
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wait(self->write(zeroes, length, offset));
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return Void();
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}
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};
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AsyncFileEncrypted::AsyncFileEncrypted(Reference<IAsyncFile> file, Mode mode)
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: file(file), mode(mode), readBuffers(FLOW_KNOBS->MAX_DECRYPTED_BLOCKS), currentBlock(0) {
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firstBlockIV = AsyncFileEncryptedImpl::getFirstBlockIV(file->getFilename());
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if (mode == Mode::APPEND_ONLY) {
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encryptor =
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std::make_unique<EncryptionStreamCipher>(StreamCipherKey::getGlobalCipherKey(), getIV(currentBlock));
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writeBuffer = std::vector<unsigned char>(FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE, 0);
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}
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}
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void AsyncFileEncrypted::addref() {
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ReferenceCounted<AsyncFileEncrypted>::addref();
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}
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void AsyncFileEncrypted::delref() {
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ReferenceCounted<AsyncFileEncrypted>::delref();
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}
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Future<int> AsyncFileEncrypted::read(void* data, int length, int64_t offset) {
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return AsyncFileEncryptedImpl::read(this, data, length, offset);
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}
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Future<Void> AsyncFileEncrypted::write(void const* data, int length, int64_t offset) {
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return AsyncFileEncryptedImpl::write(this, data, length, offset);
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}
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Future<Void> AsyncFileEncrypted::zeroRange(int64_t offset, int64_t length) {
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return AsyncFileEncryptedImpl::zeroRange(this, offset, length);
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}
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Future<Void> AsyncFileEncrypted::truncate(int64_t size) {
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ASSERT(mode == Mode::APPEND_ONLY);
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return file->truncate(size);
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}
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Future<Void> AsyncFileEncrypted::sync() {
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ASSERT(mode == Mode::APPEND_ONLY);
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return AsyncFileEncryptedImpl::sync(this);
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}
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Future<Void> AsyncFileEncrypted::flush() {
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ASSERT(mode == Mode::APPEND_ONLY);
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return Void();
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}
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Future<int64_t> AsyncFileEncrypted::size() const {
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ASSERT(mode == Mode::READ_ONLY);
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return file->size();
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}
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std::string AsyncFileEncrypted::getFilename() const {
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return file->getFilename();
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}
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Future<Void> AsyncFileEncrypted::readZeroCopy(void** data, int* length, int64_t offset) {
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throw io_error();
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return Void();
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}
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void AsyncFileEncrypted::releaseZeroCopy(void* data, int length, int64_t offset) {
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throw io_error();
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}
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int64_t AsyncFileEncrypted::debugFD() const {
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return file->debugFD();
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}
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StreamCipher::IV AsyncFileEncrypted::getIV(uint32_t block) const {
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auto iv = firstBlockIV;
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auto pBlock = reinterpret_cast<unsigned char*>(&block);
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std::copy(pBlock, pBlock + 4, &iv[12]);
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return iv;
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}
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Future<Void> AsyncFileEncrypted::writeLastBlockToFile() {
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return file->write(&writeBuffer[0], offsetInBlock, currentBlock * FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE);
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}
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size_t AsyncFileEncrypted::RandomCache::evict() {
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ASSERT_EQ(vec.size(), maxSize);
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auto index = deterministicRandom()->randomInt(0, maxSize);
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hashMap.erase(vec[index]);
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return index;
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}
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AsyncFileEncrypted::RandomCache::RandomCache(size_t maxSize) : maxSize(maxSize) {
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vec.reserve(maxSize);
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}
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void AsyncFileEncrypted::RandomCache::insert(uint32_t block, const Standalone<StringRef>& value) {
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auto [_, found] = hashMap.insert({ block, value });
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if (found) {
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return;
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} else if (vec.size() < maxSize) {
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vec.push_back(block);
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} else {
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auto index = evict();
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vec[index] = block;
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}
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}
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Optional<Standalone<StringRef>> AsyncFileEncrypted::RandomCache::get(uint32_t block) const {
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auto it = hashMap.find(block);
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if (it == hashMap.end()) {
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return {};
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} else {
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return it->second;
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}
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}
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// This test writes random data into an encrypted file in random increments,
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// then reads this data back from the file in random increments, then confirms that
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// the bytes read match the bytes written.
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TEST_CASE("fdbrpc/AsyncFileEncrypted") {
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state const int bytes = FLOW_KNOBS->ENCRYPTION_BLOCK_SIZE * deterministicRandom()->randomInt(0, 1000);
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state std::vector<unsigned char> writeBuffer(bytes, 0);
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generateRandomData(&writeBuffer.front(), bytes);
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state std::vector<unsigned char> readBuffer(bytes, 0);
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ASSERT(g_network->isSimulated());
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StreamCipherKey::initializeGlobalRandomTestKey();
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int flags = IAsyncFile::OPEN_READWRITE | IAsyncFile::OPEN_CREATE | IAsyncFile::OPEN_ATOMIC_WRITE_AND_CREATE |
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IAsyncFile::OPEN_UNBUFFERED | IAsyncFile::OPEN_ENCRYPTED | IAsyncFile::OPEN_UNCACHED |
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IAsyncFile::OPEN_NO_AIO;
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state Reference<IAsyncFile> file =
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wait(IAsyncFileSystem::filesystem()->open(joinPath(params.getDataDir(), "test-encrypted-file"), flags, 0600));
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state int bytesWritten = 0;
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state int chunkSize;
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while (bytesWritten < bytes) {
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chunkSize = std::min(deterministicRandom()->randomInt(0, 100), bytes - bytesWritten);
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wait(file->write(&writeBuffer[bytesWritten], chunkSize, bytesWritten));
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bytesWritten += chunkSize;
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}
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wait(file->sync());
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state int bytesRead = 0;
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while (bytesRead < bytes) {
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chunkSize = std::min(deterministicRandom()->randomInt(0, 100), bytes - bytesRead);
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int bytesReadInChunk = wait(file->read(&readBuffer[bytesRead], chunkSize, bytesRead));
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ASSERT_EQ(bytesReadInChunk, chunkSize);
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bytesRead += bytesReadInChunk;
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}
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ASSERT(writeBuffer == readBuffer);
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return Void();
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}
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