src/storage/minfs/writeback.h - fuchsia - Git at Google

 // Copyright 2017 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef SRC_STORAGE_MINFS_WRITEBACK_H_
 #define SRC_STORAGE_MINFS_WRITEBACK_H_

 #include <lib/zx/status.h>

 #include <memory>
 #include <utility>
 #include <vector>

 #include <fbl/ref_ptr.h>

 #ifdef __Fuchsia__
 #include <lib/fzl/owned-vmo-mapper.h>
 #include <lib/zx/vmo.h>

 #include <fbl/auto_lock.h>
 #include <fbl/mutex.h>
 #include <fs/transaction/writeback.h>
 #endif

 #include <fbl/algorithm.h>
 #include <fbl/intrusive_hash_table.h>
 #include <fbl/intrusive_single_list.h>
 #include <fbl/macros.h>
 #include <fs/queue.h>
 #include <fs/transaction/buffered_operations_builder.h>
 #include <fs/vfs.h>

 #include "src/storage/minfs/allocator_reservation.h"
 #include "src/storage/minfs/bcache.h"
 #include "src/storage/minfs/cached_block_transaction.h"
 #include "src/storage/minfs/format.h"
 #include "src/storage/minfs/pending_work.h"

 namespace minfs {

 class DataAssignableVnode;
 class InodeManager;
 class TransactionalFs;
 class VnodeMinfs;

 // Tracks the current transaction, including any enqueued writes, and reserved blocks
 // and inodes. Also handles allocation of previously reserved blocks/inodes.
 // Upon construction, acquires a lock to ensure that all work being done within the
 // scope of the transaction is thread-safe. Specifically, the Minfs superblock, block bitmap, and
 // inode table, as well as the Vnode block count and inode size may in the near future be modified
 // asynchronously. Since these modifications require a Transaction to be in progress, this lock
 // will protect against multiple simultaneous writes to these structures.
 class Transaction final : public PendingWork {
  public:
   static zx_status_t Create(TransactionalFs* minfs, size_t reserve_inodes, size_t reserve_blocks,
                             InodeManager* inode_manager, std::unique_ptr<Transaction>* out);

   // Creates a Transaction object from CachedBlockTransaction. Consumes cached_transaction.
   static std::unique_ptr<Transaction> FromCachedBlockTransaction(
       TransactionalFs* minfs, std::unique_ptr<CachedBlockTransaction> cached_transaction);

   Transaction() = delete;

   explicit Transaction(TransactionalFs* minfs,
                        std::unique_ptr<CachedBlockTransaction> cached_transaction = nullptr);

   ~Transaction() final;

   AllocatorReservation& inode_reservation() { return inode_reservation_; }
   AllocatorReservation& block_reservation() { return *block_reservation_; }

   ////////////////
   // PendingWork interface.

   void EnqueueMetadata(storage::Operation operation, storage::BlockBuffer* buffer) final;
   void EnqueueData(storage::Operation operation, storage::BlockBuffer* buffer) final;

   size_t AllocateBlock() final { return block_reservation_->Allocate(); }

   void DeallocateBlock(size_t block) final { return block_reservation_->Deallocate(block); }

   ////////////////
   // Other methods.
   size_t AllocateInode() { return inode_reservation_.Allocate(); }

   void PinVnode(fbl::RefPtr<VnodeMinfs> vnode);

   // Extends block reservation by |reserve_blocks| number of blocks. It may fail
   // if the underlying allocator runs out of space.
   zx_status_t ExtendBlockReservation(size_t reserve_blocks);

 #ifdef __Fuchsia__
   // Returns a vector of all enqueued metadata write operations.
   std::vector<storage::UnbufferedOperation> RemoveMetadataOperations() {
     return metadata_operations_.TakeOperations();
   }

   // Returns a vector of all enqueued data write operations.
   std::vector<storage::UnbufferedOperation> RemoveDataOperations() {
     return data_operations_.TakeOperations();
   }

   size_t SwapBlock(size_t old_bno) { return block_reservation_->Swap(old_bno); }

   std::vector<fbl::RefPtr<VnodeMinfs>> RemovePinnedVnodes();

   // Returns the block reservations within |transaction| and consumes |transaction|.
   // Asserts that there are no inode reservations.
   static std::unique_ptr<AllocatorReservation> TakeBlockReservations(
       std::unique_ptr<Transaction> transaction) {
     // When consuming transaction, we ignore any pending data and matadata operations
     // as they will be enqueued again.
     ZX_ASSERT(transaction->inode_reservation_.GetReserved() == 0);
     return (std::move(transaction->block_reservation_));
   }

 #else
   std::vector<storage::BufferedOperation> TakeOperations() { return builder_.TakeOperations(); }
 #endif

  private:
 #ifdef __Fuchsia__
   fbl::AutoLock<fbl::Mutex> lock_;
   storage::UnbufferedOperationsBuilder metadata_operations_;
   storage::UnbufferedOperationsBuilder data_operations_;
   std::vector<fbl::RefPtr<VnodeMinfs>> pinned_vnodes_;
 #else
   fs::BufferedOperationsBuilder builder_;
 #endif

   AllocatorReservation inode_reservation_;
   std::unique_ptr<AllocatorReservation> block_reservation_;
 };

 }  // namespace minfs

 #endif  // SRC_STORAGE_MINFS_WRITEBACK_H_
	// Copyright 2017 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef SRC_STORAGE_MINFS_WRITEBACK_H_
	#define SRC_STORAGE_MINFS_WRITEBACK_H_

	#include <lib/zx/status.h>

	#include <memory>
	#include <utility>
	#include <vector>

	#include <fbl/ref_ptr.h>

	#ifdef __Fuchsia__
	#include <lib/fzl/owned-vmo-mapper.h>
	#include <lib/zx/vmo.h>

	#include <fbl/auto_lock.h>
	#include <fbl/mutex.h>
	#include <fs/transaction/writeback.h>
	#endif

	#include <fbl/algorithm.h>
	#include <fbl/intrusive_hash_table.h>
	#include <fbl/intrusive_single_list.h>
	#include <fbl/macros.h>
	#include <fs/queue.h>
	#include <fs/transaction/buffered_operations_builder.h>
	#include <fs/vfs.h>

	#include "src/storage/minfs/allocator_reservation.h"
	#include "src/storage/minfs/bcache.h"
	#include "src/storage/minfs/cached_block_transaction.h"
	#include "src/storage/minfs/format.h"
	#include "src/storage/minfs/pending_work.h"

	namespace minfs {

	class DataAssignableVnode;
	class InodeManager;
	class TransactionalFs;
	class VnodeMinfs;

	// Tracks the current transaction, including any enqueued writes, and reserved blocks
	// and inodes. Also handles allocation of previously reserved blocks/inodes.
	// Upon construction, acquires a lock to ensure that all work being done within the
	// scope of the transaction is thread-safe. Specifically, the Minfs superblock, block bitmap, and
	// inode table, as well as the Vnode block count and inode size may in the near future be modified
	// asynchronously. Since these modifications require a Transaction to be in progress, this lock
	// will protect against multiple simultaneous writes to these structures.
	class Transaction final : public PendingWork {
	public:
	static zx_status_t Create(TransactionalFs* minfs, size_t reserve_inodes, size_t reserve_blocks,
	InodeManager* inode_manager, std::unique_ptr<Transaction>* out);

	// Creates a Transaction object from CachedBlockTransaction. Consumes cached_transaction.
	static std::unique_ptr<Transaction> FromCachedBlockTransaction(
	TransactionalFs* minfs, std::unique_ptr<CachedBlockTransaction> cached_transaction);

	Transaction() = delete;

	explicit Transaction(TransactionalFs* minfs,
	std::unique_ptr<CachedBlockTransaction> cached_transaction = nullptr);

	~Transaction() final;

	AllocatorReservation& inode_reservation() { return inode_reservation_; }
	AllocatorReservation& block_reservation() { return *block_reservation_; }

	////////////////
	// PendingWork interface.

	void EnqueueMetadata(storage::Operation operation, storage::BlockBuffer* buffer) final;
	void EnqueueData(storage::Operation operation, storage::BlockBuffer* buffer) final;

	size_t AllocateBlock() final { return block_reservation_->Allocate(); }

	void DeallocateBlock(size_t block) final { return block_reservation_->Deallocate(block); }

	////////////////
	// Other methods.
	size_t AllocateInode() { return inode_reservation_.Allocate(); }

	void PinVnode(fbl::RefPtr<VnodeMinfs> vnode);

	// Extends block reservation by \|reserve_blocks\| number of blocks. It may fail
	// if the underlying allocator runs out of space.
	zx_status_t ExtendBlockReservation(size_t reserve_blocks);

	#ifdef __Fuchsia__
	// Returns a vector of all enqueued metadata write operations.
	std::vector<storage::UnbufferedOperation> RemoveMetadataOperations() {
	return metadata_operations_.TakeOperations();
	}

	// Returns a vector of all enqueued data write operations.
	std::vector<storage::UnbufferedOperation> RemoveDataOperations() {
	return data_operations_.TakeOperations();
	}

	size_t SwapBlock(size_t old_bno) { return block_reservation_->Swap(old_bno); }

	std::vector<fbl::RefPtr<VnodeMinfs>> RemovePinnedVnodes();

	// Returns the block reservations within \|transaction\| and consumes \|transaction\|.
	// Asserts that there are no inode reservations.
	static std::unique_ptr<AllocatorReservation> TakeBlockReservations(
	std::unique_ptr<Transaction> transaction) {
	// When consuming transaction, we ignore any pending data and matadata operations
	// as they will be enqueued again.
	ZX_ASSERT(transaction->inode_reservation_.GetReserved() == 0);
	return (std::move(transaction->block_reservation_));
	}

	#else
	std::vector<storage::BufferedOperation> TakeOperations() { return builder_.TakeOperations(); }
	#endif

	private:
	#ifdef __Fuchsia__
	fbl::AutoLock<fbl::Mutex> lock_;
	storage::UnbufferedOperationsBuilder metadata_operations_;
	storage::UnbufferedOperationsBuilder data_operations_;
	std::vector<fbl::RefPtr<VnodeMinfs>> pinned_vnodes_;
	#else
	fs::BufferedOperationsBuilder builder_;
	#endif

	AllocatorReservation inode_reservation_;
	std::unique_ptr<AllocatorReservation> block_reservation_;
	};

	} // namespace minfs

	#endif // SRC_STORAGE_MINFS_WRITEBACK_H_