sync/syncable/entry.h - chromium/src - Git at Google

 // Copyright 2012 The Chromium 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 SYNC_SYNCABLE_ENTRY_H_
 #define SYNC_SYNCABLE_ENTRY_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <string>
 #include <vector>

 #include "base/macros.h"
 #include "sync/base/sync_export.h"
 #include "sync/syncable/entry_kernel.h"

 namespace syncer {
 class Cryptographer;
 class ReadNode;

 namespace syncable {

 class Directory;
 class BaseTransaction;

 // A read-only meta entry
 // Instead of:
 //   Entry e = transaction.GetById(id);
 // use:
 //   Entry e(transaction, GET_BY_ID, id);
 //
 // Why?  The former would require a copy constructor, and it would be difficult
 // to enforce that an entry never outlived its transaction if there were a copy
 // constructor.
 enum GetById {
   GET_BY_ID
 };

 enum GetByClientTag {
   GET_BY_CLIENT_TAG
 };

 enum GetByServerTag {
   // Server tagged items are deprecated for all types but bookmarks.
   GET_BY_SERVER_TAG
 };

 enum GetTypeRoot {
   GET_TYPE_ROOT
 };

 enum GetByHandle {
   GET_BY_HANDLE
 };

 class SYNC_EXPORT Entry {
  public:
   // After constructing, you must check good() to test whether the Get
   // succeeded.
   Entry(BaseTransaction* trans, GetByHandle, int64_t handle);
   Entry(BaseTransaction* trans, GetById, const Id& id);
   Entry(BaseTransaction* trans, GetTypeRoot, ModelType type);
   Entry(BaseTransaction* trans, GetByClientTag, const std::string& tag);

   // This lookup function is deprecated.  All types except bookmarks can use
   // the GetTypeRoot variant instead.
   Entry(BaseTransaction* trans, GetByServerTag, const std::string& tag);

   bool good() const { return 0 != kernel_; }

   BaseTransaction* trans() const { return basetrans_; }

   // Field accessors.
   int64_t GetMetahandle() const {
     DCHECK(kernel_);
     return kernel_->ref(META_HANDLE);
   }

   int64_t GetBaseVersion() const {
     DCHECK(kernel_);
     return kernel_->ref(BASE_VERSION);
   }

   int64_t GetServerVersion() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_VERSION);
   }

   int64_t GetLocalExternalId() const {
     DCHECK(kernel_);
     return kernel_->ref(LOCAL_EXTERNAL_ID);
   }

   int64_t GetTransactionVersion() const {
     DCHECK(kernel_);
     return kernel_->ref(TRANSACTION_VERSION);
   }

   const base::Time& GetMtime() const {
     DCHECK(kernel_);
     return kernel_->ref(MTIME);
   }

   const base::Time& GetServerMtime() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_MTIME);
   }

   const base::Time& GetCtime() const {
     DCHECK(kernel_);
     return kernel_->ref(CTIME);
   }

   const base::Time& GetServerCtime() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_CTIME);
   }

   const Id& GetId() const {
     DCHECK(kernel_);
     return kernel_->ref(ID);
   }

   const Id& GetParentId() const {
     DCHECK(kernel_);
     return kernel_->ref(PARENT_ID);
   }

   Id GetServerParentId() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_PARENT_ID);
   }

   bool GetIsUnsynced() const {
     DCHECK(kernel_);
     return kernel_->ref(IS_UNSYNCED);
   }

   bool GetIsUnappliedUpdate() const {
     DCHECK(kernel_);
     return kernel_->ref(IS_UNAPPLIED_UPDATE);
   }

   bool GetIsDel() const {
     DCHECK(kernel_);
     return kernel_->ref(IS_DEL);
   }

   bool GetIsDir() const {
     DCHECK(kernel_);
     return kernel_->ref(IS_DIR);
   }

   bool GetServerIsDir() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_IS_DIR);
   }

   bool GetServerIsDel() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_IS_DEL);
   }

   const std::string& GetNonUniqueName() const {
     DCHECK(kernel_);
     return kernel_->ref(NON_UNIQUE_NAME);
   }

   const std::string& GetServerNonUniqueName() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_NON_UNIQUE_NAME);
   }

   const std::string& GetUniqueServerTag() const {
     DCHECK(kernel_);
     return kernel_->ref(UNIQUE_SERVER_TAG);
   }

   const std::string& GetUniqueClientTag() const {
     DCHECK(kernel_);
     return kernel_->ref(UNIQUE_CLIENT_TAG);
   }

   const std::string& GetUniqueBookmarkTag() const {
     DCHECK(kernel_);
     return kernel_->ref(UNIQUE_BOOKMARK_TAG);
   }

   const sync_pb::EntitySpecifics& GetSpecifics() const {
     DCHECK(kernel_);
     return kernel_->ref(SPECIFICS);
   }

   const sync_pb::EntitySpecifics& GetServerSpecifics() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_SPECIFICS);
   }

   const sync_pb::EntitySpecifics& GetBaseServerSpecifics() const {
     DCHECK(kernel_);
     return kernel_->ref(BASE_SERVER_SPECIFICS);
   }

   const UniquePosition& GetServerUniquePosition() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_UNIQUE_POSITION);
   }

   const UniquePosition& GetUniquePosition() const {
     DCHECK(kernel_);
     return kernel_->ref(UNIQUE_POSITION);
   }

   const sync_pb::AttachmentMetadata& GetAttachmentMetadata() const {
     DCHECK(kernel_);
     return kernel_->ref(ATTACHMENT_METADATA);
   }

   const sync_pb::AttachmentMetadata& GetServerAttachmentMetadata() const {
     DCHECK(kernel_);
     return kernel_->ref(SERVER_ATTACHMENT_METADATA);
   }

   bool GetSyncing() const;
   bool GetDirtySync() const;

   ModelType GetServerModelType() const;
   ModelType GetModelType() const;

   Id GetPredecessorId() const;
   Id GetSuccessorId() const;
   Id GetFirstChildId() const;
   int GetTotalNodeCount() const;

   int GetPositionIndex() const;

   // Returns a vector of this node's children's handles.
   // Clears |result| if there are no children.  If this node is of a type that
   // supports user-defined ordering then the resulting vector will be in the
   // proper order.
   void GetChildHandles(std::vector<int64_t>* result) const;

   inline bool ExistsOnClientBecauseNameIsNonEmpty() const {
     DCHECK(kernel_);
     return !kernel_->ref(NON_UNIQUE_NAME).empty();
   }

   inline bool IsRoot() const {
     DCHECK(kernel_);
     return kernel_->ref(ID).IsRoot();
   }

   // Returns true if this is an entry that is expected to maintain a certain
   // sort ordering relative to its siblings under the same parent.
   bool ShouldMaintainPosition() const;

   // Returns true if this is an entry that is expected to maintain hierarchy.
   // ie. Whether or not the PARENT_ID field contains useful information.
   bool ShouldMaintainHierarchy() const;

   Directory* dir() const;

   const EntryKernel GetKernelCopy() const {
     return *kernel_;
   }

   // Dumps all entry info into a DictionaryValue and returns it.
   // Transfers ownership of the DictionaryValue to the caller.
   base::DictionaryValue* ToValue(Cryptographer* cryptographer) const;

  protected:  // Don't allow creation on heap, except by sync API wrappers.
   void* operator new(size_t size) { return (::operator new)(size); }

   inline explicit Entry(BaseTransaction* trans)
       : basetrans_(trans),
         kernel_(NULL) { }

  protected:
   BaseTransaction* const basetrans_;

   EntryKernel* kernel_;

  private:
   friend class Directory;
   friend class syncer::ReadNode;
   friend std::ostream& operator << (std::ostream& s, const Entry& e);

   DISALLOW_COPY_AND_ASSIGN(Entry);
 };

 std::ostream& operator<<(std::ostream& os, const Entry& entry);

 }  // namespace syncable
 }  // namespace syncer

 #endif  // SYNC_SYNCABLE_ENTRY_H_
	// Copyright 2012 The Chromium 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 SYNC_SYNCABLE_ENTRY_H_
	#define SYNC_SYNCABLE_ENTRY_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <string>
	#include <vector>

	#include "base/macros.h"
	#include "sync/base/sync_export.h"
	#include "sync/syncable/entry_kernel.h"

	namespace syncer {
	class Cryptographer;
	class ReadNode;

	namespace syncable {

	class Directory;
	class BaseTransaction;

	// A read-only meta entry
	// Instead of:
	// Entry e = transaction.GetById(id);
	// use:
	// Entry e(transaction, GET_BY_ID, id);
	//
	// Why? The former would require a copy constructor, and it would be difficult
	// to enforce that an entry never outlived its transaction if there were a copy
	// constructor.
	enum GetById {
	GET_BY_ID
	};

	enum GetByClientTag {
	GET_BY_CLIENT_TAG
	};

	enum GetByServerTag {
	// Server tagged items are deprecated for all types but bookmarks.
	GET_BY_SERVER_TAG
	};

	enum GetTypeRoot {
	GET_TYPE_ROOT
	};

	enum GetByHandle {
	GET_BY_HANDLE
	};

	class SYNC_EXPORT Entry {
	public:
	// After constructing, you must check good() to test whether the Get
	// succeeded.
	Entry(BaseTransaction* trans, GetByHandle, int64_t handle);
	Entry(BaseTransaction* trans, GetById, const Id& id);
	Entry(BaseTransaction* trans, GetTypeRoot, ModelType type);
	Entry(BaseTransaction* trans, GetByClientTag, const std::string& tag);

	// This lookup function is deprecated. All types except bookmarks can use
	// the GetTypeRoot variant instead.
	Entry(BaseTransaction* trans, GetByServerTag, const std::string& tag);

	bool good() const { return 0 != kernel_; }

	BaseTransaction* trans() const { return basetrans_; }

	// Field accessors.
	int64_t GetMetahandle() const {
	DCHECK(kernel_);
	return kernel_->ref(META_HANDLE);
	}

	int64_t GetBaseVersion() const {
	DCHECK(kernel_);
	return kernel_->ref(BASE_VERSION);
	}

	int64_t GetServerVersion() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_VERSION);
	}

	int64_t GetLocalExternalId() const {
	DCHECK(kernel_);
	return kernel_->ref(LOCAL_EXTERNAL_ID);
	}

	int64_t GetTransactionVersion() const {
	DCHECK(kernel_);
	return kernel_->ref(TRANSACTION_VERSION);
	}

	const base::Time& GetMtime() const {
	DCHECK(kernel_);
	return kernel_->ref(MTIME);
	}

	const base::Time& GetServerMtime() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_MTIME);
	}

	const base::Time& GetCtime() const {
	DCHECK(kernel_);
	return kernel_->ref(CTIME);
	}

	const base::Time& GetServerCtime() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_CTIME);
	}

	const Id& GetId() const {
	DCHECK(kernel_);
	return kernel_->ref(ID);
	}

	const Id& GetParentId() const {
	DCHECK(kernel_);
	return kernel_->ref(PARENT_ID);
	}

	Id GetServerParentId() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_PARENT_ID);
	}

	bool GetIsUnsynced() const {
	DCHECK(kernel_);
	return kernel_->ref(IS_UNSYNCED);
	}

	bool GetIsUnappliedUpdate() const {
	DCHECK(kernel_);
	return kernel_->ref(IS_UNAPPLIED_UPDATE);
	}

	bool GetIsDel() const {
	DCHECK(kernel_);
	return kernel_->ref(IS_DEL);
	}

	bool GetIsDir() const {
	DCHECK(kernel_);
	return kernel_->ref(IS_DIR);
	}

	bool GetServerIsDir() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_IS_DIR);
	}

	bool GetServerIsDel() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_IS_DEL);
	}

	const std::string& GetNonUniqueName() const {
	DCHECK(kernel_);
	return kernel_->ref(NON_UNIQUE_NAME);
	}

	const std::string& GetServerNonUniqueName() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_NON_UNIQUE_NAME);
	}

	const std::string& GetUniqueServerTag() const {
	DCHECK(kernel_);
	return kernel_->ref(UNIQUE_SERVER_TAG);
	}

	const std::string& GetUniqueClientTag() const {
	DCHECK(kernel_);
	return kernel_->ref(UNIQUE_CLIENT_TAG);
	}

	const std::string& GetUniqueBookmarkTag() const {
	DCHECK(kernel_);
	return kernel_->ref(UNIQUE_BOOKMARK_TAG);
	}

	const sync_pb::EntitySpecifics& GetSpecifics() const {
	DCHECK(kernel_);
	return kernel_->ref(SPECIFICS);
	}

	const sync_pb::EntitySpecifics& GetServerSpecifics() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_SPECIFICS);
	}

	const sync_pb::EntitySpecifics& GetBaseServerSpecifics() const {
	DCHECK(kernel_);
	return kernel_->ref(BASE_SERVER_SPECIFICS);
	}

	const UniquePosition& GetServerUniquePosition() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_UNIQUE_POSITION);
	}

	const UniquePosition& GetUniquePosition() const {
	DCHECK(kernel_);
	return kernel_->ref(UNIQUE_POSITION);
	}

	const sync_pb::AttachmentMetadata& GetAttachmentMetadata() const {
	DCHECK(kernel_);
	return kernel_->ref(ATTACHMENT_METADATA);
	}

	const sync_pb::AttachmentMetadata& GetServerAttachmentMetadata() const {
	DCHECK(kernel_);
	return kernel_->ref(SERVER_ATTACHMENT_METADATA);
	}

	bool GetSyncing() const;
	bool GetDirtySync() const;

	ModelType GetServerModelType() const;
	ModelType GetModelType() const;

	Id GetPredecessorId() const;
	Id GetSuccessorId() const;
	Id GetFirstChildId() const;
	int GetTotalNodeCount() const;

	int GetPositionIndex() const;

	// Returns a vector of this node's children's handles.
	// Clears \|result\| if there are no children. If this node is of a type that
	// supports user-defined ordering then the resulting vector will be in the
	// proper order.
	void GetChildHandles(std::vector<int64_t>* result) const;

	inline bool ExistsOnClientBecauseNameIsNonEmpty() const {
	DCHECK(kernel_);
	return !kernel_->ref(NON_UNIQUE_NAME).empty();
	}

	inline bool IsRoot() const {
	DCHECK(kernel_);
	return kernel_->ref(ID).IsRoot();
	}

	// Returns true if this is an entry that is expected to maintain a certain
	// sort ordering relative to its siblings under the same parent.
	bool ShouldMaintainPosition() const;

	// Returns true if this is an entry that is expected to maintain hierarchy.
	// ie. Whether or not the PARENT_ID field contains useful information.
	bool ShouldMaintainHierarchy() const;

	Directory* dir() const;

	const EntryKernel GetKernelCopy() const {
	return *kernel_;
	}

	// Dumps all entry info into a DictionaryValue and returns it.
	// Transfers ownership of the DictionaryValue to the caller.
	base::DictionaryValue* ToValue(Cryptographer* cryptographer) const;

	protected: // Don't allow creation on heap, except by sync API wrappers.
	void* operator new(size_t size) { return (::operator new)(size); }

	inline explicit Entry(BaseTransaction* trans)
	: basetrans_(trans),
	kernel_(NULL) { }

	protected:
	BaseTransaction* const basetrans_;

	EntryKernel* kernel_;

	private:
	friend class Directory;
	friend class syncer::ReadNode;
	friend std::ostream& operator << (std::ostream& s, const Entry& e);

	DISALLOW_COPY_AND_ASSIGN(Entry);
	};

	std::ostream& operator<<(std::ostream& os, const Entry& entry);

	} // namespace syncable
	} // namespace syncer

	#endif // SYNC_SYNCABLE_ENTRY_H_