// // Copyright (C) 2015 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. // #ifndef UPDATE_ENGINE_PAYLOAD_GENERATOR_AB_GENERATOR_H_ #define UPDATE_ENGINE_PAYLOAD_GENERATOR_AB_GENERATOR_H_ #include <string> #include <vector> #include <base/macros.h> #include <brillo/secure_blob.h> #include "update_engine/payload_consumer/payload_constants.h" #include "update_engine/payload_generator/blob_file_writer.h" #include "update_engine/payload_generator/extent_utils.h" #include "update_engine/payload_generator/filesystem_interface.h" #include "update_engine/payload_generator/operations_generator.h" #include "update_engine/payload_generator/payload_generation_config.h" #include "update_engine/update_metadata.pb.h" namespace chromeos_update_engine { // The ABGenerator is an operations generator that generates payloads using the // A-to-B operations SOURCE_COPY and SOURCE_BSDIFF introduced in the payload // minor version 2 format. class ABGenerator : public OperationsGenerator { public: ABGenerator() = default; // Generate the update payload operations for the given partition using // SOURCE_* operations, used for generating deltas for the minor version // kSourceMinorPayloadVersion. This function will generate operations in the // partition that will read blocks from the source partition in random order // and write the new image on the target partition, also possibly in random // order. The operations are stored in |aops| and should be executed in that // order. All the offsets in the operations reference the data written to // |blob_file|. bool GenerateOperations(const PayloadGenerationConfig& config, const PartitionConfig& old_part, const PartitionConfig& new_part, BlobFileWriter* blob_file, std::vector<AnnotatedOperation>* aops) override; // Split the operations in the vector of AnnotatedOperations |aops| such that // for every operation there is only one dst extent and updates |aops| with // the new list of operations. All kinds of operations are fragmented except // BSDIFF and SOURCE_BSDIFF, PUFFDIFF and BROTLI_BSDIFF operations. The // |target_part_path| is the filename of the new image, where the destination // extents refer to. The blobs of the operations in |aops| should reference // |blob_file|. |blob_file| are updated if needed. static bool FragmentOperations(const PayloadVersion& version, std::vector<AnnotatedOperation>* aops, const std::string& target_part_path, BlobFileWriter* blob_file); // Takes a vector of AnnotatedOperations |aops| and sorts them by the first // start block in their destination extents. Sets |aops| to a vector of the // sorted operations. static void SortOperationsByDestination( std::vector<AnnotatedOperation>* aops); // Takes an SOURCE_COPY install operation, |aop|, and adds one operation for // each dst extent in |aop| to |ops|. The new operations added to |ops| will // have only one dst extent. The src extents are split so the number of blocks // in the src and dst extents are equal. // E.g. we have a SOURCE_COPY operation: // src extents: [(1, 3), (5, 1), (7, 1)], dst extents: [(2, 2), (6, 3)] // Then we will get 2 new operations: // 1. src extents: [(1, 2)], dst extents: [(2, 2)] // 2. src extents: [(3, 1),(5, 1),(7, 1)], dst extents: [(6, 3)] static bool SplitSourceCopy(const AnnotatedOperation& original_aop, std::vector<AnnotatedOperation>* result_aops); // Takes a REPLACE, REPLACE_BZ or REPLACE_XZ operation |aop|, and adds one // operation for each dst extent in |aop| to |ops|. The new operations added // to |ops| will have only one dst extent each, and may be of a different // type depending on whether compression is advantageous. static bool SplitAReplaceOp(const PayloadVersion& version, const AnnotatedOperation& original_aop, const std::string& target_part, std::vector<AnnotatedOperation>* result_aops, BlobFileWriter* blob_file); // Takes a sorted (by first destination extent) vector of operations |aops| // and merges SOURCE_COPY, REPLACE, REPLACE_BZ and REPLACE_XZ, operations in // that vector. // It will merge two operations if: // - They are both REPLACE_*, or they are both SOURCE_COPY, // - Their destination blocks are contiguous. // - Their combined blocks do not exceed |chunk_blocks| blocks. // Note that unlike other methods, you can't pass a negative number in // |chunk_blocks|. static bool MergeOperations(std::vector<AnnotatedOperation>* aops, const PayloadVersion& version, size_t chunk_blocks, const std::string& target_part, BlobFileWriter* blob_file); // Takes a vector of AnnotatedOperations |aops|, adds source hash to all // operations that have src_extents. static bool AddSourceHash(std::vector<AnnotatedOperation>* aops, const std::string& source_part_path); private: // Adds the data payload for a REPLACE/REPLACE_BZ/REPLACE_XZ operation |aop| // by reading its output extents from |target_part_path| and appending a // corresponding data blob to |blob_file|. The blob will be compressed if this // is smaller than the uncompressed form, and the operation type will be set // accordingly. |*blob_file| will be updated as well. If the operation happens // to have the right type and already points to a data blob, nothing is // written. Caller should only set type and data blob if it's valid. static bool AddDataAndSetType(AnnotatedOperation* aop, const PayloadVersion& version, const std::string& target_part_path, BlobFileWriter* blob_file); DISALLOW_COPY_AND_ASSIGN(ABGenerator); }; } // namespace chromeos_update_engine #endif // UPDATE_ENGINE_PAYLOAD_GENERATOR_AB_GENERATOR_H_