dynamic_partition_control_android.h - platform/system/update_engine - Git at Google

 //
 // 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_DYNAMIC_PARTITION_CONTROL_ANDROID_H_
 #define UPDATE_ENGINE_DYNAMIC_PARTITION_CONTROL_ANDROID_H_

 #include <memory>
 #include <set>
 #include <string>
 #include <vector>

 #include <base/files/file_util.h>
 #include <libsnapshot/auto_device.h>
 #include <libsnapshot/snapshot.h>

 #include "update_engine/common/dynamic_partition_control_interface.h"

 namespace chromeos_update_engine {

 class DynamicPartitionControlAndroid : public DynamicPartitionControlInterface {
  public:
   DynamicPartitionControlAndroid();
   ~DynamicPartitionControlAndroid();
   FeatureFlag GetDynamicPartitionsFeatureFlag() override;
   FeatureFlag GetVirtualAbFeatureFlag() override;
   bool OptimizeOperation(const std::string& partition_name,
                          const InstallOperation& operation,
                          InstallOperation* optimized) override;
   void Cleanup() override;

   bool PreparePartitionsForUpdate(uint32_t source_slot,
                                   uint32_t target_slot,
                                   const DeltaArchiveManifest& manifest,
                                   bool update,
                                   uint64_t* required_size) override;
   bool FinishUpdate(bool powerwash_required) override;
   std::unique_ptr<AbstractAction> GetCleanupPreviousUpdateAction(
       BootControlInterface* boot_control,
       PrefsInterface* prefs,
       CleanupPreviousUpdateActionDelegateInterface* delegate) override;

   bool ResetUpdate(PrefsInterface* prefs) override;

   bool ListDynamicPartitionsForSlot(
       uint32_t current_slot, std::vector<std::string>* partitions) override;

   bool GetDeviceDir(std::string* path) override;

   // Return the device for partition |partition_name| at slot |slot|.
   // |current_slot| should be set to the current active slot.
   // Note: this function is only used by BootControl*::GetPartitionDevice.
   // Other callers should prefer BootControl*::GetPartitionDevice over
   // BootControl*::GetDynamicPartitionControl()->GetPartitionDevice().
   bool GetPartitionDevice(const std::string& partition_name,
                           uint32_t slot,
                           uint32_t current_slot,
                           bool not_in_payload,
                           std::string* device,
                           bool* is_dynamic);

   bool GetPartitionDevice(const std::string& partition_name,
                           uint32_t slot,
                           uint32_t current_slot,
                           std::string* device);

  protected:
   // These functions are exposed for testing.

   // Unmap logical partition on device mapper. This is the reverse operation
   // of MapPartitionOnDeviceMapper.
   // Returns true if unmapped successfully.
   virtual bool UnmapPartitionOnDeviceMapper(
       const std::string& target_partition_name);

   // Retrieve metadata from |super_device| at slot |source_slot|.
   //
   // If |target_slot| != kInvalidSlot, before returning the metadata, this
   // function modifies the metadata so that during updates, the metadata can be
   // written to |target_slot|. In particular, on retrofit devices, the returned
   // metadata automatically includes block devices at |target_slot|.
   //
   // If |target_slot| == kInvalidSlot, this function returns metadata at
   // |source_slot| without modifying it. This is the same as
   // LoadMetadataBuilder(const std::string&, uint32_t).
   virtual std::unique_ptr<android::fs_mgr::MetadataBuilder> LoadMetadataBuilder(
       const std::string& super_device,
       uint32_t source_slot,
       uint32_t target_slot);

   // Write metadata |builder| to |super_device| at slot |target_slot|.
   virtual bool StoreMetadata(const std::string& super_device,
                              android::fs_mgr::MetadataBuilder* builder,
                              uint32_t target_slot);

   // Map logical partition on device-mapper.
   // |super_device| is the device path of the physical partition ("super").
   // |target_partition_name| is the identifier used in metadata; for example,
   // "vendor_a"
   // |slot| is the selected slot to mount; for example, 0 for "_a".
   // Returns true if mapped successfully; if so, |path| is set to the device
   // path of the mapped logical partition.
   virtual bool MapPartitionOnDeviceMapper(
       const std::string& super_device,
       const std::string& target_partition_name,
       uint32_t slot,
       bool force_writable,
       std::string* path);

   // Return true if a static partition exists at device path |path|.
   virtual bool DeviceExists(const std::string& path);

   // Returns the current state of the underlying device mapper device
   // with given name.
   // One of INVALID, SUSPENDED or ACTIVE.
   virtual android::dm::DmDeviceState GetState(const std::string& name);

   // Returns the path to the device mapper device node in '/dev' corresponding
   // to 'name'. If the device does not exist, false is returned, and the path
   // parameter is not set.
   virtual bool GetDmDevicePathByName(const std::string& name,
                                      std::string* path);

   // Retrieve metadata from |super_device| at slot |source_slot|.
   virtual std::unique_ptr<android::fs_mgr::MetadataBuilder> LoadMetadataBuilder(
       const std::string& super_device, uint32_t source_slot);

   // Return the name of the super partition (which stores super partition
   // metadata) for a given slot.
   virtual std::string GetSuperPartitionName(uint32_t slot);

   virtual void set_fake_mapped_devices(const std::set<std::string>& fake);

   // Allow mock objects to override this to test recovery mode.
   virtual bool IsRecovery();

   // Determine path for system_other partition.
   // |source_slot| should be current slot.
   // |target_slot| should be "other" slot.
   // |partition_name_suffix| should be "system" + suffix(|target_slot|).
   // Return true and set |path| if successful.
   // Set |path| to empty if no need to erase system_other.
   // Set |should_unmap| to true if path needs to be unmapped later.
   //
   // Note: system_other cannot use GetPartitionDevice or
   // GetDynamicPartitionDevice because:
   // - super partition metadata may be loaded from the source slot
   // - UPDATED flag needs to be check to skip erasing if partition is not
   //   created by flashing tools
   // - Snapshots from previous update attempts should not be used.
   virtual bool GetSystemOtherPath(uint32_t source_slot,
                                   uint32_t target_slot,
                                   const std::string& partition_name_suffix,
                                   std::string* path,
                                   bool* should_unmap);

   // Returns true if any entry in the fstab file in |path| has AVB enabled,
   // false if not enabled, and nullopt for any error.
   virtual std::optional<bool> IsAvbEnabledInFstab(const std::string& path);

   // Returns true if system_other has AVB enabled, false if not enabled, and
   // nullopt for any error.
   virtual std::optional<bool> IsAvbEnabledOnSystemOther();

   // Erase system_other partition that may contain system_other.img.
   // After the update, the content of system_other may be corrupted but with
   // valid AVB footer. If the update is rolled back and factory data reset is
   // triggered, system_b fails to be mapped with verity errors (see
   // b/152444348). Erase the system_other so that mapping system_other is
   // skipped.
   virtual bool EraseSystemOtherAvbFooter(uint32_t source_slot,
                                          uint32_t target_slot);

   // Helper for PreparePartitionsForUpdate. Used for devices with dynamic
   // partitions updating without snapshots.
   // If |delete_source| is set, source partitions are deleted before resizing
   // target partitions (using DeleteSourcePartitions).
   virtual bool PrepareDynamicPartitionsForUpdate(
       uint32_t source_slot,
       uint32_t target_slot,
       const DeltaArchiveManifest& manifest,
       bool delete_source);

  private:
   friend class DynamicPartitionControlAndroidTest;
   friend class SnapshotPartitionTestP;

   void UnmapAllPartitions();
   bool MapPartitionInternal(const std::string& super_device,
                             const std::string& target_partition_name,
                             uint32_t slot,
                             bool force_writable,
                             std::string* path);

   // Update |builder| according to |partition_metadata|, assuming the device
   // does not have Virtual A/B.
   bool UpdatePartitionMetadata(android::fs_mgr::MetadataBuilder* builder,
                                uint32_t target_slot,
                                const DeltaArchiveManifest& manifest);

   // Helper for PreparePartitionsForUpdate. Used for snapshotted partitions for
   // Virtual A/B update.
   bool PrepareSnapshotPartitionsForUpdate(uint32_t source_slot,
                                           uint32_t target_slot,
                                           const DeltaArchiveManifest& manifest,
                                           uint64_t* required_size);

   enum class DynamicPartitionDeviceStatus {
     SUCCESS,
     ERROR,
     TRY_STATIC,
   };

   // Return SUCCESS and path in |device| if partition is dynamic.
   // Return ERROR if any error.
   // Return TRY_STATIC if caller should resolve the partition as a static
   // partition instead.
   DynamicPartitionDeviceStatus GetDynamicPartitionDevice(
       const base::FilePath& device_dir,
       const std::string& partition_name_suffix,
       uint32_t slot,
       uint32_t current_slot,
       bool not_in_payload,
       std::string* device);

   // Return true if |partition_name_suffix| is a block device of
   // super partition metadata slot |slot|.
   bool IsSuperBlockDevice(const base::FilePath& device_dir,
                           uint32_t current_slot,
                           const std::string& partition_name_suffix);

   // If sideloading a full OTA, delete source partitions from |builder|.
   bool DeleteSourcePartitions(android::fs_mgr::MetadataBuilder* builder,
                               uint32_t source_slot,
                               const DeltaArchiveManifest& manifest);

   // Returns true if metadata is expected to be mounted, false otherwise.
   // Note that it returns false on non-Virtual A/B devices.
   //
   // Almost all functions of SnapshotManager depends on metadata being mounted.
   // - In Android mode for Virtual A/B devices, assume it is mounted. If not,
   //   let caller fails when calling into SnapshotManager.
   // - In recovery for Virtual A/B devices, it is possible that metadata is not
   //   formatted, hence it cannot be mounted. Caller should not call into
   //   SnapshotManager.
   // - On non-Virtual A/B devices, updates do not depend on metadata partition.
   //   Caller should not call into SnapshotManager.
   //
   // This function does NOT mount metadata partition. Use EnsureMetadataMounted
   // to mount metadata partition.
   bool ExpectMetadataMounted();

   // Ensure /metadata is mounted. Returns true if successful, false otherwise.
   //
   // Note that this function returns true on non-Virtual A/B devices without
   // doing anything.
   bool EnsureMetadataMounted();

   std::set<std::string> mapped_devices_;
   const FeatureFlag dynamic_partitions_;
   const FeatureFlag virtual_ab_;
   std::unique_ptr<android::snapshot::ISnapshotManager> snapshot_;
   std::unique_ptr<android::snapshot::AutoDevice> metadata_device_;
   bool target_supports_snapshot_ = false;
   // Whether the target partitions should be loaded as dynamic partitions. Set
   // by PreparePartitionsForUpdate() per each update.
   bool is_target_dynamic_ = false;
   uint32_t source_slot_ = UINT32_MAX;
   uint32_t target_slot_ = UINT32_MAX;

   DISALLOW_COPY_AND_ASSIGN(DynamicPartitionControlAndroid);
 };

 }  // namespace chromeos_update_engine

 #endif  // UPDATE_ENGINE_DYNAMIC_PARTITION_CONTROL_ANDROID_H_
	//
	// 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_DYNAMIC_PARTITION_CONTROL_ANDROID_H_
	#define UPDATE_ENGINE_DYNAMIC_PARTITION_CONTROL_ANDROID_H_

	#include <memory>
	#include <set>
	#include <string>
	#include <vector>

	#include <base/files/file_util.h>
	#include <libsnapshot/auto_device.h>
	#include <libsnapshot/snapshot.h>

	#include "update_engine/common/dynamic_partition_control_interface.h"

	namespace chromeos_update_engine {

	class DynamicPartitionControlAndroid : public DynamicPartitionControlInterface {
	public:
	DynamicPartitionControlAndroid();
	~DynamicPartitionControlAndroid();
	FeatureFlag GetDynamicPartitionsFeatureFlag() override;
	FeatureFlag GetVirtualAbFeatureFlag() override;
	bool OptimizeOperation(const std::string& partition_name,
	const InstallOperation& operation,
	InstallOperation* optimized) override;
	void Cleanup() override;

	bool PreparePartitionsForUpdate(uint32_t source_slot,
	uint32_t target_slot,
	const DeltaArchiveManifest& manifest,
	bool update,
	uint64_t* required_size) override;
	bool FinishUpdate(bool powerwash_required) override;
	std::unique_ptr<AbstractAction> GetCleanupPreviousUpdateAction(
	BootControlInterface* boot_control,
	PrefsInterface* prefs,
	CleanupPreviousUpdateActionDelegateInterface* delegate) override;

	bool ResetUpdate(PrefsInterface* prefs) override;

	bool ListDynamicPartitionsForSlot(
	uint32_t current_slot, std::vector<std::string>* partitions) override;

	bool GetDeviceDir(std::string* path) override;

	// Return the device for partition \|partition_name\| at slot \|slot\|.
	// \|current_slot\| should be set to the current active slot.
	// Note: this function is only used by BootControl*::GetPartitionDevice.
	// Other callers should prefer BootControl*::GetPartitionDevice over
	// BootControl*::GetDynamicPartitionControl()->GetPartitionDevice().
	bool GetPartitionDevice(const std::string& partition_name,
	uint32_t slot,
	uint32_t current_slot,
	bool not_in_payload,
	std::string* device,
	bool* is_dynamic);

	bool GetPartitionDevice(const std::string& partition_name,
	uint32_t slot,
	uint32_t current_slot,
	std::string* device);

	protected:
	// These functions are exposed for testing.

	// Unmap logical partition on device mapper. This is the reverse operation
	// of MapPartitionOnDeviceMapper.
	// Returns true if unmapped successfully.
	virtual bool UnmapPartitionOnDeviceMapper(
	const std::string& target_partition_name);

	// Retrieve metadata from \|super_device\| at slot \|source_slot\|.
	//
	// If \|target_slot\| != kInvalidSlot, before returning the metadata, this
	// function modifies the metadata so that during updates, the metadata can be
	// written to \|target_slot\|. In particular, on retrofit devices, the returned
	// metadata automatically includes block devices at \|target_slot\|.
	//
	// If \|target_slot\| == kInvalidSlot, this function returns metadata at
	// \|source_slot\| without modifying it. This is the same as
	// LoadMetadataBuilder(const std::string&, uint32_t).
	virtual std::unique_ptr<android::fs_mgr::MetadataBuilder> LoadMetadataBuilder(
	const std::string& super_device,
	uint32_t source_slot,
	uint32_t target_slot);

	// Write metadata \|builder\| to \|super_device\| at slot \|target_slot\|.
	virtual bool StoreMetadata(const std::string& super_device,
	android::fs_mgr::MetadataBuilder* builder,
	uint32_t target_slot);

	// Map logical partition on device-mapper.
	// \|super_device\| is the device path of the physical partition ("super").
	// \|target_partition_name\| is the identifier used in metadata; for example,
	// "vendor_a"
	// \|slot\| is the selected slot to mount; for example, 0 for "_a".
	// Returns true if mapped successfully; if so, \|path\| is set to the device
	// path of the mapped logical partition.
	virtual bool MapPartitionOnDeviceMapper(
	const std::string& super_device,
	const std::string& target_partition_name,
	uint32_t slot,
	bool force_writable,
	std::string* path);

	// Return true if a static partition exists at device path \|path\|.
	virtual bool DeviceExists(const std::string& path);

	// Returns the current state of the underlying device mapper device
	// with given name.
	// One of INVALID, SUSPENDED or ACTIVE.
	virtual android::dm::DmDeviceState GetState(const std::string& name);

	// Returns the path to the device mapper device node in '/dev' corresponding
	// to 'name'. If the device does not exist, false is returned, and the path
	// parameter is not set.
	virtual bool GetDmDevicePathByName(const std::string& name,
	std::string* path);

	// Retrieve metadata from \|super_device\| at slot \|source_slot\|.
	virtual std::unique_ptr<android::fs_mgr::MetadataBuilder> LoadMetadataBuilder(
	const std::string& super_device, uint32_t source_slot);

	// Return the name of the super partition (which stores super partition
	// metadata) for a given slot.
	virtual std::string GetSuperPartitionName(uint32_t slot);

	virtual void set_fake_mapped_devices(const std::set<std::string>& fake);

	// Allow mock objects to override this to test recovery mode.
	virtual bool IsRecovery();

	// Determine path for system_other partition.
	// \|source_slot\| should be current slot.
	// \|target_slot\| should be "other" slot.
	// \|partition_name_suffix\| should be "system" + suffix(\|target_slot\|).
	// Return true and set \|path\| if successful.
	// Set \|path\| to empty if no need to erase system_other.
	// Set \|should_unmap\| to true if path needs to be unmapped later.
	//
	// Note: system_other cannot use GetPartitionDevice or
	// GetDynamicPartitionDevice because:
	// - super partition metadata may be loaded from the source slot
	// - UPDATED flag needs to be check to skip erasing if partition is not
	// created by flashing tools
	// - Snapshots from previous update attempts should not be used.
	virtual bool GetSystemOtherPath(uint32_t source_slot,
	uint32_t target_slot,
	const std::string& partition_name_suffix,
	std::string* path,
	bool* should_unmap);

	// Returns true if any entry in the fstab file in \|path\| has AVB enabled,
	// false if not enabled, and nullopt for any error.
	virtual std::optional<bool> IsAvbEnabledInFstab(const std::string& path);

	// Returns true if system_other has AVB enabled, false if not enabled, and
	// nullopt for any error.
	virtual std::optional<bool> IsAvbEnabledOnSystemOther();

	// Erase system_other partition that may contain system_other.img.
	// After the update, the content of system_other may be corrupted but with
	// valid AVB footer. If the update is rolled back and factory data reset is
	// triggered, system_b fails to be mapped with verity errors (see
	// b/152444348). Erase the system_other so that mapping system_other is
	// skipped.
	virtual bool EraseSystemOtherAvbFooter(uint32_t source_slot,
	uint32_t target_slot);

	// Helper for PreparePartitionsForUpdate. Used for devices with dynamic
	// partitions updating without snapshots.
	// If \|delete_source\| is set, source partitions are deleted before resizing
	// target partitions (using DeleteSourcePartitions).
	virtual bool PrepareDynamicPartitionsForUpdate(
	uint32_t source_slot,
	uint32_t target_slot,
	const DeltaArchiveManifest& manifest,
	bool delete_source);

	private:
	friend class DynamicPartitionControlAndroidTest;
	friend class SnapshotPartitionTestP;

	void UnmapAllPartitions();
	bool MapPartitionInternal(const std::string& super_device,
	const std::string& target_partition_name,
	uint32_t slot,
	bool force_writable,
	std::string* path);

	// Update \|builder\| according to \|partition_metadata\|, assuming the device
	// does not have Virtual A/B.
	bool UpdatePartitionMetadata(android::fs_mgr::MetadataBuilder* builder,
	uint32_t target_slot,
	const DeltaArchiveManifest& manifest);

	// Helper for PreparePartitionsForUpdate. Used for snapshotted partitions for
	// Virtual A/B update.
	bool PrepareSnapshotPartitionsForUpdate(uint32_t source_slot,
	uint32_t target_slot,
	const DeltaArchiveManifest& manifest,
	uint64_t* required_size);

	enum class DynamicPartitionDeviceStatus {
	SUCCESS,
	ERROR,
	TRY_STATIC,
	};

	// Return SUCCESS and path in \|device\| if partition is dynamic.
	// Return ERROR if any error.
	// Return TRY_STATIC if caller should resolve the partition as a static
	// partition instead.
	DynamicPartitionDeviceStatus GetDynamicPartitionDevice(
	const base::FilePath& device_dir,
	const std::string& partition_name_suffix,
	uint32_t slot,
	uint32_t current_slot,
	bool not_in_payload,
	std::string* device);

	// Return true if \|partition_name_suffix\| is a block device of
	// super partition metadata slot \|slot\|.
	bool IsSuperBlockDevice(const base::FilePath& device_dir,
	uint32_t current_slot,
	const std::string& partition_name_suffix);

	// If sideloading a full OTA, delete source partitions from \|builder\|.
	bool DeleteSourcePartitions(android::fs_mgr::MetadataBuilder* builder,
	uint32_t source_slot,
	const DeltaArchiveManifest& manifest);

	// Returns true if metadata is expected to be mounted, false otherwise.
	// Note that it returns false on non-Virtual A/B devices.
	//
	// Almost all functions of SnapshotManager depends on metadata being mounted.
	// - In Android mode for Virtual A/B devices, assume it is mounted. If not,
	// let caller fails when calling into SnapshotManager.
	// - In recovery for Virtual A/B devices, it is possible that metadata is not
	// formatted, hence it cannot be mounted. Caller should not call into
	// SnapshotManager.
	// - On non-Virtual A/B devices, updates do not depend on metadata partition.
	// Caller should not call into SnapshotManager.
	//
	// This function does NOT mount metadata partition. Use EnsureMetadataMounted
	// to mount metadata partition.
	bool ExpectMetadataMounted();

	// Ensure /metadata is mounted. Returns true if successful, false otherwise.
	//
	// Note that this function returns true on non-Virtual A/B devices without
	// doing anything.
	bool EnsureMetadataMounted();

	std::set<std::string> mapped_devices_;
	const FeatureFlag dynamic_partitions_;
	const FeatureFlag virtual_ab_;
	std::unique_ptr<android::snapshot::ISnapshotManager> snapshot_;
	std::unique_ptr<android::snapshot::AutoDevice> metadata_device_;
	bool target_supports_snapshot_ = false;
	// Whether the target partitions should be loaded as dynamic partitions. Set
	// by PreparePartitionsForUpdate() per each update.
	bool is_target_dynamic_ = false;
	uint32_t source_slot_ = UINT32_MAX;
	uint32_t target_slot_ = UINT32_MAX;

	DISALLOW_COPY_AND_ASSIGN(DynamicPartitionControlAndroid);
	};

	} // namespace chromeos_update_engine

	#endif // UPDATE_ENGINE_DYNAMIC_PARTITION_CONTROL_ANDROID_H_