// // Copyright (C) 2018 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_COMMON_DYNAMIC_PARTITION_CONTROL_INTERFACE_H_ #define UPDATE_ENGINE_COMMON_DYNAMIC_PARTITION_CONTROL_INTERFACE_H_ #include #include #include #include #include "update_engine/common/action.h" #include "update_engine/common/cleanup_previous_update_action_delegate.h" #include "update_engine/common/error_code.h" #include "update_engine/common/prefs_interface.h" #include "update_engine/payload_consumer/file_descriptor.h" #include "update_engine/update_metadata.pb.h" // Forware declare for libsnapshot/snapshot_writer.h namespace android::snapshot { class ICowWriter; } namespace chromeos_update_engine { struct PartitionDevice { std::string rw_device_path; std::string readonly_device_path; bool is_dynamic; }; struct FeatureFlag { enum class Value { NONE = 0, RETROFIT, LAUNCH }; constexpr explicit FeatureFlag(Value value) : value_(value) {} constexpr bool IsEnabled() const { return value_ != Value::NONE; } constexpr bool IsRetrofit() const { return value_ == Value::RETROFIT; } constexpr bool IsLaunch() const { return value_ == Value::LAUNCH; } private: Value value_; }; class BootControlInterface; class DynamicPartitionControlInterface { public: virtual ~DynamicPartitionControlInterface() = default; // Return the feature flags of dynamic partitions on this device. // Return RETROFIT iff dynamic partitions is retrofitted on this device, // LAUNCH iff this device is launched with dynamic partitions, // NONE iff dynamic partitions is disabled on this device. virtual FeatureFlag GetDynamicPartitionsFeatureFlag() = 0; // Return the feature flags of Virtual A/B on this device. virtual FeatureFlag GetVirtualAbFeatureFlag() = 0; // Return the feature flags of Virtual A/B Compression on this device. // This function will tell you if current device supports VABC. However, it // DOES NOT tell you if VABC is used for current OTA update. For that, use // UpdateUsesSnapshotCompression. virtual FeatureFlag GetVirtualAbCompressionFeatureFlag() = 0; // Return the feature flag for Virtual AB Compression XOR virtual FeatureFlag GetVirtualAbCompressionXorFeatureFlag() = 0; // Returns whether userspace snapshots are enabled on the device, but not // whether they're enabled for the update. virtual FeatureFlag GetVirtualAbUserspaceSnapshotsFeatureFlag() = 0; // Attempt to optimize |operation|. // If successful, |optimized| contains an operation with extents that // needs to be written. // If failed, no optimization is available, and caller should perform // |operation| directly. // |partition_name| should not have the slot suffix; implementation of // DynamicPartitionControlInterface checks partition at the target slot // previously set with PreparePartitionsForUpdate(). virtual bool OptimizeOperation(const std::string& partition_name, const InstallOperation& operation, InstallOperation* optimized) = 0; // Do necessary cleanups before destroying the object. virtual void Cleanup() = 0; // Prepare all partitions for an update specified in |manifest|. // This is needed before calling MapPartitionOnDeviceMapper(), otherwise the // device would be mapped in an inconsistent way. // If |update| is set, create snapshots and writes super partition metadata. // If |required_size| is not null and call fails due to insufficient space, // |required_size| will be set to total free space required on userdata // partition to apply the update. Otherwise (call succeeds, or fails // due to other errors), |required_size| is set to zero. virtual bool PreparePartitionsForUpdate(uint32_t source_slot, uint32_t target_slot, const DeltaArchiveManifest& manifest, bool update, uint64_t* required_size, ErrorCode* error = nullptr) = 0; // After writing to new partitions, before rebooting into the new slot, call // this function to indicate writes to new partitions are done. virtual bool FinishUpdate(bool powerwash_required) = 0; // Get an action to clean up previous update. // Return NoOpAction on non-Virtual A/B devices. // Before applying the next update, run this action to clean up previous // update files. This function blocks until delta files are merged into // current OS partitions and finished cleaning up. // - If successful, action completes with kSuccess. // - If any error, but caller should retry after reboot, action completes with // kError. // - If any irrecoverable failures, action completes with kDeviceCorrupted. // // See ResetUpdate for differences between CleanuPreviousUpdateAction and // ResetUpdate. virtual std::unique_ptr GetCleanupPreviousUpdateAction( BootControlInterface* boot_control, PrefsInterface* prefs, CleanupPreviousUpdateActionDelegateInterface* delegate) = 0; // Called after an unwanted payload has been successfully applied and the // device has not yet been rebooted. // // For snapshot updates (Virtual A/B), it calls // DeltaPerformer::ResetUpdateProgress(false /* quick */) and // frees previously allocated space; the next update will need to be // started over. // // Note: CleanupPreviousUpdateAction does not do anything if an update is in // progress, while ResetUpdate() forcefully free previously // allocated space for snapshot updates. virtual bool ResetUpdate(PrefsInterface* prefs) = 0; // Reads the dynamic partitions metadata from the given slot, and puts the // name of the dynamic partitions with the current suffix to |partitions|. // Returns true on success. virtual bool ListDynamicPartitionsForSlot( uint32_t slot, uint32_t current_slot, std::vector* partitions) = 0; // Finds a possible location that list all block devices by name; and puts // the result in |path|. Returns true on success. // Sample result: /dev/block/by-name/ virtual bool GetDeviceDir(std::string* path) = 0; // Verifies that the untouched dynamic partitions in the target metadata have // the same extents as the source metadata. virtual bool VerifyExtentsForUntouchedPartitions( uint32_t source_slot, uint32_t target_slot, const std::vector& partitions) = 0; // Partition name is expected to be unsuffixed. e.g. system, vendor // Return an interface to write to a snapshoted partition. // If `is_append` is false, then existing COW data will be overwritten. // Otherwise the cow writer will be opened on APPEND mode, existing COW data // is preserved. virtual std::unique_ptr OpenCowWriter( const std::string& unsuffixed_partition_name, const std::optional&, std::optional label) = 0; // Open a general purpose FD capable to reading and writing to COW. Note that // writes must be block aligned. virtual std::unique_ptr OpenCowFd( const std::string& unsuffixed_partition_name, const std::optional&, bool is_append = false) = 0; virtual bool IsDynamicPartition(const std::string& part_name, uint32_t slot) = 0; // Create virtual block devices for all partitions. virtual bool MapAllPartitions() = 0; // Unmap virtual block devices for all partitions. virtual bool UnmapAllPartitions() = 0; // Return if snapshot compression is enabled for this update. // This function should only be called after preparing for an update // (PreparePartitionsForUpdate), and before merging // (see GetCleanupPreviousUpdateAction and CleanupPreviousUpdateAction) or // resetting it (ResetUpdate). // // To know if the device supports snapshot compression by itself, use // GetVirtualAbCompressionFeatureFlag virtual bool UpdateUsesSnapshotCompression() = 0; }; } // namespace chromeos_update_engine #endif // UPDATE_ENGINE_COMMON_DYNAMIC_PARTITION_CONTROL_INTERFACE_H_