// // Copyright (C) 2020 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // #include "update_engine/payload_consumer/vabc_partition_writer.h" #include #include #include #include #include "update_engine/common/cow_operation_convert.h" #include "update_engine/common/utils.h" #include "update_engine/payload_consumer/extent_writer.h" #include "update_engine/payload_consumer/file_descriptor.h" #include "update_engine/payload_consumer/install_plan.h" #include "update_engine/payload_consumer/partition_writer.h" #include "update_engine/payload_consumer/snapshot_extent_writer.h" namespace chromeos_update_engine { // Expected layout of COW file: // === Beginning of Cow Image === // All Source Copy Operations // ========== Label 0 ========== // Operation 0 in PartitionUpdate // ========== Label 1 ========== // Operation 1 in PartitionUpdate // ========== label 2 ========== // Operation 2 in PartitionUpdate // ========== label 3 ========== // . // . // . // When resuming, pass |next_op_index_| as label to // |InitializeWithAppend|. // For example, suppose we finished writing SOURCE_COPY, and we finished writing // operation 2 completely. Update is suspended when we are half way through // operation 3. // |cnext_op_index_| would be 3, so we pass 3 as // label to |InitializeWithAppend|. The CowWriter will retain all data before // label 3, Which contains all operation 2's data, but none of operation 3's // data. bool VABCPartitionWriter::Init(const InstallPlan* install_plan, bool source_may_exist, size_t next_op_index) { TEST_AND_RETURN_FALSE(install_plan != nullptr); TEST_AND_RETURN_FALSE( OpenSourcePartition(install_plan->source_slot, source_may_exist)); std::optional source_path; if (!install_part_.source_path.empty()) { // TODO(zhangkelvin) Make |source_path| a std::optional source_path = install_part_.source_path; } cow_writer_ = dynamic_control_->OpenCowWriter( install_part_.name, source_path, install_plan->is_resume); TEST_AND_RETURN_FALSE(cow_writer_ != nullptr); // ===== Resume case handling code goes here ==== // It is possible that the SOURCE_COPY are already written but // |next_op_index_| is still 0. In this case we discard previously written // SOURCE_COPY, and start over. if (install_plan->is_resume && next_op_index > 0) { LOG(INFO) << "Resuming update on partition `" << partition_update_.partition_name() << "` op index " << next_op_index; TEST_AND_RETURN_FALSE(cow_writer_->InitializeAppend(next_op_index)); return true; } else { TEST_AND_RETURN_FALSE(cow_writer_->Initialize()); } // ============================================== // TODO(zhangkelvin) Rewrite this in C++20 coroutine once that's available. auto converted = ConvertToCowOperations(partition_update_.operations(), partition_update_.merge_operations()); WriteAllCowOps(block_size_, converted, cow_writer_.get(), source_fd_); return true; } bool VABCPartitionWriter::WriteAllCowOps( size_t block_size, const std::vector& converted, android::snapshot::ICowWriter* cow_writer, FileDescriptorPtr source_fd) { std::vector buffer(block_size); for (const auto& cow_op : converted) { switch (cow_op.op) { case CowOperation::CowCopy: if (cow_op.src_block == cow_op.dst_block) { continue; } TEST_AND_RETURN_FALSE( cow_writer->AddCopy(cow_op.dst_block, cow_op.src_block)); break; case CowOperation::CowReplace: ssize_t bytes_read = 0; TEST_AND_RETURN_FALSE(utils::ReadAll(source_fd, buffer.data(), block_size, cow_op.src_block * block_size, &bytes_read)); if (bytes_read <= 0 || static_cast(bytes_read) != block_size) { LOG(ERROR) << "source_fd->Read failed: " << bytes_read; return false; } TEST_AND_RETURN_FALSE(cow_writer->AddRawBlocks( cow_op.dst_block, buffer.data(), block_size)); break; } } return true; } std::unique_ptr VABCPartitionWriter::CreateBaseExtentWriter() { return std::make_unique(cow_writer_.get()); } [[nodiscard]] bool VABCPartitionWriter::PerformZeroOrDiscardOperation( const InstallOperation& operation) { for (const auto& extent : operation.dst_extents()) { TEST_AND_RETURN_FALSE( cow_writer_->AddZeroBlocks(extent.start_block(), extent.num_blocks())); } return true; } [[nodiscard]] bool VABCPartitionWriter::PerformSourceCopyOperation( const InstallOperation& operation, ErrorCode* error) { // TODO(zhangkelvin) Probably just ignore SOURCE_COPY? They should be taken // care of during Init(); return true; } void VABCPartitionWriter::CheckpointUpdateProgress(size_t next_op_index) { // No need to call fsync/sync, as CowWriter flushes after a label is added // added. // if cow_writer_ failed, that means Init() failed. This function shouldn't be // called if Init() fails. TEST_AND_RETURN(cow_writer_ != nullptr); cow_writer_->AddLabel(next_op_index); } [[nodiscard]] bool VABCPartitionWriter::FinishedInstallOps() { // Add a hardcoded magic label to indicate end of all install ops. This label // is needed by filesystem verification, don't remove. TEST_AND_RETURN_FALSE(cow_writer_ != nullptr); return cow_writer_->AddLabel(kEndOfInstallLabel); } VABCPartitionWriter::~VABCPartitionWriter() { if (cow_writer_) { cow_writer_->Finalize(); } } } // namespace chromeos_update_engine