WO2009048729A1 - Block based access to a dispersed data storage network - Google Patents
Block based access to a dispersed data storage network Download PDFInfo
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- WO2009048729A1 WO2009048729A1 PCT/US2008/077174 US2008077174W WO2009048729A1 WO 2009048729 A1 WO2009048729 A1 WO 2009048729A1 US 2008077174 W US2008077174 W US 2008077174W WO 2009048729 A1 WO2009048729 A1 WO 2009048729A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
- H04L67/1097—Protocols in which an application is distributed across nodes in the network for distributed storage of data in networks, e.g. transport arrangements for network file system [NFS], storage area networks [SAN] or network attached storage [NAS]
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/07—Responding to the occurrence of a fault, e.g. fault tolerance
- G06F11/08—Error detection or correction by redundancy in data representation, e.g. by using checking codes
- G06F11/10—Adding special bits or symbols to the coded information, e.g. parity check, casting out 9's or 11's
- G06F11/1004—Adding special bits or symbols to the coded information, e.g. parity check, casting out 9's or 11's to protect a block of data words, e.g. CRC or checksum
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/07—Responding to the occurrence of a fault, e.g. fault tolerance
- G06F11/08—Error detection or correction by redundancy in data representation, e.g. by using checking codes
- G06F11/10—Adding special bits or symbols to the coded information, e.g. parity check, casting out 9's or 11's
- G06F11/1076—Parity data used in redundant arrays of independent storages, e.g. in RAID systems
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/06—Digital input from, or digital output to, record carriers, e.g. RAID, emulated record carriers or networked record carriers
- G06F3/0601—Interfaces specially adapted for storage systems
- G06F3/0602—Interfaces specially adapted for storage systems specifically adapted to achieve a particular effect
- G06F3/0614—Improving the reliability of storage systems
- G06F3/0617—Improving the reliability of storage systems in relation to availability
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/06—Digital input from, or digital output to, record carriers, e.g. RAID, emulated record carriers or networked record carriers
- G06F3/0601—Interfaces specially adapted for storage systems
- G06F3/0602—Interfaces specially adapted for storage systems specifically adapted to achieve a particular effect
- G06F3/0614—Improving the reliability of storage systems
- G06F3/0619—Improving the reliability of storage systems in relation to data integrity, e.g. data losses, bit errors
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/06—Digital input from, or digital output to, record carriers, e.g. RAID, emulated record carriers or networked record carriers
- G06F3/0601—Interfaces specially adapted for storage systems
- G06F3/0628—Interfaces specially adapted for storage systems making use of a particular technique
- G06F3/0629—Configuration or reconfiguration of storage systems
- G06F3/0635—Configuration or reconfiguration of storage systems by changing the path, e.g. traffic rerouting, path reconfiguration
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/06—Digital input from, or digital output to, record carriers, e.g. RAID, emulated record carriers or networked record carriers
- G06F3/0601—Interfaces specially adapted for storage systems
- G06F3/0628—Interfaces specially adapted for storage systems making use of a particular technique
- G06F3/0655—Vertical data movement, i.e. input-output transfer; data movement between one or more hosts and one or more storage devices
- G06F3/0659—Command handling arrangements, e.g. command buffers, queues, command scheduling
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/06—Digital input from, or digital output to, record carriers, e.g. RAID, emulated record carriers or networked record carriers
- G06F3/0601—Interfaces specially adapted for storage systems
- G06F3/0668—Interfaces specially adapted for storage systems adopting a particular infrastructure
- G06F3/067—Distributed or networked storage systems, e.g. storage area networks [SAN], network attached storage [NAS]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/06—Protocols specially adapted for file transfer, e.g. file transfer protocol [FTP]
Definitions
- the present invention relates generally to systems, apparatus, and methods for distributed data storage, and more particularly to systems, apparatus, and methods for distributed data storage using an information dispersal algorithm so that no one location will store an entire copy of stored data, and more particularly still to systems, apparatus, and methods for block based access to a dispersed data storage network.
- digital data is often "backed-up," i.e., an additional copy of the digital data is made and maintained in a separate physical location.
- a backup tape of all network drives may be made by a small office and maintained at the home of a trusted employee.
- the destruction of either the original device holding the digital data or the backup will not compromise the digital data.
- the existence of the backup exacerbates the security problem, as a malicious hacker can choose between two locations from which to obtain the digital data.
- the site where the backup is stored may be far less secure than the original location of the digital data, such as in the case when an employee stores the tape in her home.
- RAID Redundant Array of Independent Drives
- RAID refers to a collection of data storage schemes that divide and replicate data among multiple storage units. Different configurations of RAID provide increased performance, improved reliability, or both increased performance and improved reliability.
- RAID when digital data is stored, it is split into multiple stripes, each of which is stored on a separate drive. Data striping is performed in an algorithmically certain way so that the data can be reconstructed. While certain RAID configurations can improve reliability, RAID does nothing to address security concerns associated with digital data storage.
- Encrypted data is mathematically coded so that only users with access to a certain key can decrypt and use the data.
- Common forms of encryption include DES, AES, RSA, and others. While modern encryption methods are difficult to break, numerous instances of successful attacks are known, some of which have resulted in valuable data being compromised.
- Files are usually organized in file systems, which are software components usually associated with an operating system.
- a file system provides means for creating, updating, maintaining, and hierarchically organizing digital data.
- a file system accepts digital data of arbitrary size, segments the digital data into fixed-size blocks, and maintains a record of precisely where on the physical media data is stored and what file the data is associated with.
- file systems provide hierarchical directory structures to better organize numerous files.
- Small Computer System Interface is a well known family of interfaces for connecting and transferring data between computers and peripherals, including storage.
- SAN storage area networks
- Fibre Channel is a networking technology that is primarily used to implement SANs.
- Fibre Channel SANS can be accessed through SCSI interfaces via Fibre Channel Protocol ("FCP”), which effectively bridges Fibre Channel to higher level protocols within SCSI.
- FCP Fibre Channel Protocol
- iSCSI Internet Small Computer System Interface
- iSCSI Internet Small Computer System Interface
- s s ® r a ® r b ® r c , where s is the original source data, r a , r ⁇ and r c are random bytes given to three of the four recipients, and s' is the encoded byte given to the fourth recipient.
- the original byte s can be recovered by bitwise exclusive-orring all four bytes together.
- Reed-Solomon and Cauchy Reed-Solomon coding are two well-known methods of dividing encoded information into multiple slices so that the original information can be reassembled even if all of the slices are not available.
- Reed-Solomon coding, Cauchy Reed-Solomon coding, and other data coding techniques are described in "Erasure Codes for Storage Applications," by Dr. James S. Plank, which is hereby incorporated by reference.
- DDSNs which are also known as dispersed data storage grids
- DDSNs dispersed data storage grids
- United States Patent Number 5,485,474, issued to Michael O. Rabin describes a system for splitting a segment of digital information into n data slices, which are stored in separate devices. When the data segment must be retrieved, only m of the original data slices are required to reconstruct the data segment, where n>m.
- prior art dispersed data storage networks have had limited application.
- the prior art dispersed data storage networks have not been generally accessible by commonly used operating systems. Rather, dispersed data storage networks have been used to accomplish specific tasks, such as securing extremely sensitive information, or for experimental purposes. Nonetheless, a generally accessible dispersed data storage network would offer significant utility to a wide variety of users.
- a dispersed data storage network could be interfaced to servers implementing an online store and used to warehouse customer information, like credit card numbers. This would allow the online store the advantages of a dispersed data network without having to implement a special interface to the dispersed data network.
- Other uses of a block-based interface to a dispersed data storage network are apparent to a person of ordinary skill in the art. Objects of the Invention
- Another object of this invention is to enable dispersed data storage networks to integrate with commonly used operating systems, and to use commonly available file systems, such as NTFS, HFS+, and ext3.
- Another object of this invention is to provide an improved method of writing data to dispersed data storage network.
- Another object of this invention is to provide an improved method of reading data from a dispersed data storage network.
- the disclosed invention achieves its objectives by providing a block- based interface to a dispersed data storage network.
- a block-based interface can be provided through means such as a customized iSCSI Target, or through a device driver written for a specific operating system.
- a dispersed data storage network can be mounted onto a computer system as an ordinary drive. The user of the computer can then interact with the dispersed data storage network as if it were an ordinary drive, i.e., files can be copied to the dispersed data storage network by dragging them to the appropriate drive icon.
- a user of the dispersed data storage network can use file systems provided by the operating system of the user's computer, such as NTFS, HFS+ and ext3.
- a method of reading data from a dispersed data storage network is disclosed.
- a fixed-size block of data is requested from an interface operating on a user's computer.
- a list of slice servers holding data slices associated with the requested block is assembled.
- the data slices associated with the requested block are then read from the slice servers on the assembled list until enough data slices have been read to reconstruct the requested data block.
- the requested data block is then assembled and provided to a requesting application through an interface on the user's computer.
- data slices may be decrypted or decompressed.
- a checksum may be computed for each received data slice and compared to a CRC or other form of checksum appended to the data slice to ensure the integrity of the received data slice. Similar procedures may be performed on each assembled block.
- a method of writing data to a dispersed data storage network is disclosed. A fixed-size block of data is accepted by an interface on a user's computer. The block is then segmented into a predetermined number of data slices, each of which is then transmitted to a separate slice server for storage.
- the data block may be encrypted or compressed.
- a checksum may be computed and appended to each block, so that the integrity of each block may be verified when read from the dispersed data storage network. Similar procedures may be formed for each written data slice.
- a distributed computer system implementing a dispersed data storage network includes an operating system with one or more file system components, such as NTFS, FAT32, HFS+, or ext3.
- the file system will expose interfaces to application programs allowing digital files to be read and written.
- the system also includes a data dispersal/assembly software component, which interacts with the file system and slice servers resident on dispersed data storage network via a network layer.
- the disclosed distributed computer system could implement a block- based interface to the dispersed data storage network via an iSCSI Target.
- the block-based interface could be implemented as a device driver.
- Figure 1 is a network diagram of a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention
- Figure 2 is a block diagram illustrating the interoperation of different software components used to implement a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention
- Figure 3 is a block diagram illustrating the interoperation of different software components used to implement a dispersed data storage network constructed in accordance with a different embodiment of the disclosed invention
- Figures 4A-4C collectively illustrates a read operation from a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention
- Figures 5A-5B collectively illustrates a write operation from a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention.
- FIG. 1 a distributed computer system implementing a dispersed data storage network 100 is shown.
- An arbitrary number of slice servers 150-162 store data slices sent to them by networked source computers 102,104,106.
- some number of grid access computers 120,122 serve as networked iSCSI Targets for an arbitrary number of source computers 102,104,106, which are configured as iSCSI Initiators.
- the disclosed invention allows a dispersed data storage network to be presented as a block device which can be mounted as a network drive by compatible operating systems.
- the dispersed data storage network is accessed by the source computers 102,104,106, as an iSCSI Target.
- each source computer 102,104,106 writes data blocks to an iSCSI Initiator, which forms network commands that are directed to an associated iSCSI Target, which is in this case implemented on grid access computers 120,122.
- an iSCSI Target could be implemented on the source computers 102,104,106, which would make the grid access computers 120,122 unnecessary.
- a different storage protocol such as FCP or ATA over Ethernet could be used, or a device driver could be implemented directly on the source computers 102,104,106 to present the dispersed data storage network as a mounted drive.
- the iSCSI implementation discussed herein is only used as a device to aid the understanding of the disclosed invention by a person of ordinary skill in the art.
- FIG. 2 illustrates a distributed computer system implementing a dispersed data storage network 200.
- the illustrated system consists of a client / user computer 202, a grid access computer 220, and some number of slice servers 240,250,260.
- an application program 204 accesses an operating system including a file system 206.
- the operating system may include a separate block layer 208, meaning an interface to block devices such as storage device drivers, or the functionality of the block layer 208 may be incorporated into the file system 206.
- read and write commands directed to the file system are forwarded to an iSCSI Initiator 210, which formulates network commands that are carried out by a network layer 212, which is also part of the operating system operating on the client computer 202.
- the iSCSI Initiator 210 operating on the client computer
- the iSCSI Target 222 receives network commands from the iSCSI Initiator 210 via a separate network layer 224 operating on the grid access computer 220.
- the iSCSI Target 222 operating on the grid access computer 220 is configured to operate with a dispersed data storage network.
- the iSCSI Target 222 implements a data dispersal algorithm in accordance with the commands received from the iSCSI Initiator 210, and either retrieves data from appropriate slice servers 240,250,260 or writes data to the same.
- Each slice server 240,250,260 also contains a grid server application 244,254,264 that stores and retrieves data slices in accordance with network commands received from the grid access computer 220 via the network layers 242,252,262 of the respective slice servers 240,250,260.
- FIG. 3 illustrates a slightly different distributed computer system implementing a dispersed data storage network 300.
- the illustrated system is identical to that shown in Figure 2, except that the grid access computer 220 has been entirely removed, and, instead of using an iSCSI Target 222 to implement a block interface to the dispersed data storage network, a device driver 310 resident on the client user computer 302 implements the block interface.
- the device driver 310 receives read and write commands from the file system 206.
- the device driver 310 is configured to fulfill read and write commands through the dispersed data storage network 240,250,260.
- the device driver 310 implements a data dispersal algorithm in accordance with the commands received from the file system 206, and either retrieves data from appropriate slice servers 240,250,260 or writes data to the same.
- the embodiment of Figure 3 is otherwise similar to that of Figure 2.
- FIGS 4A-4C show the process by which an iSCSI Target, or other data dispersal/assembly software component, constructed in accordance with the disclosed invention could handle a read request.
- a read request is received. Contained within the read request will be information sufficient to determine which slice servers contain applicable data, as well as the minimum number of data slices that must be retrieved before the requested data can be reconstructed. Further information on one method that can be used to associate data requests with particular slice servers is contained in United States Patent Application ; 11/973 , 621, titled "VIRTUALIZED DATA STORAGE VAULTS ON A DISPERSED DATA STORAGE NETWORK,” filed on October 9, 2007 and assigned to Cleversafe, Inc.
- step 404 the variable m is initialized to the minimum number of slices required to construct the requested data. As described herein, for each successfully received and validated slice, m is decremented. In step 406, a list of slice servers each holding one required data slice that has yet to be received is assembled, and in step 408, the list is ordered by any applicable criteria. Further information on criteria by which the list may be ordered is contained in United States Patent Application 11/973, 622, titled "SMART ACCESS TO A DISPERSED DATA
- step 410 read requests are issued to the first k slice servers on the assembled list, where k is at least equal to m, the minimum number of data slices needed to reconstruct the requested data segment, but could be as large as n, the number of data slices that have data relevant to the requested data segment.
- step 412 r data slices are received, and in step 414 the number of received data slices r is subtracted from the variable m. Note that the number of received data slices r may be smaller than the number of requested data slices k.
- step 416 m is compared to zero, and if m is not equal to zero, execution returns to step 406, and execution proceeds as normal from there.
- a collection of data transformations may optionally be applied to the received slices in step 418.
- the applied data transformations can include decryption, decompression, and integrity checking.
- each data slice may have a cyclical redundancy check ("CRC"), or other form of checksum appended to the data contained in the slice. This checksum could be compared against a checksum calculated against the received data to ensure that the data was not corrupted while it was stored or during the transmission process.
- CRC cyclical redundancy check
- step 420 it is determined if the applied data transformations were successful for all of the received data slices. If the applied data transformations were not successful for some of the received slices, m is incremented by this number in step 422, and execution is resumed at step 406.
- the data transformations could fail, for example, if an integrity check revealed that a received data slice may be been corrupted. However, if the applied data transformations were successful for all received data slices, the received slices are assembled into the requested block of data in step 424. The same or different data transformations may optionally be applied to the assembled data block in step 426, which completes the read process. [0032] In Figures 5A-5B, the process by which an iSCSI Target, or other data dispersal/assembly software component, constructed in accordance with the disclosed invention could handle a write request is illustrated. In step 502 a write request is received. Included in this write request is a data segment to be written that could span many fixed length blocks.
- the write request will contain information sufficient to determine which slice servers the data segment should be written to, as well as information required by the information dispersal algorithm to slice each block, i.e., the number of slices to be written, referred to as n, as well as the minimum number of slices that are required to recover the data, referred to as m. Further information on one method that can be used to associate data writes with particular slice servers is contained in United States Patent Application
- step 504 the data segment is blocked into identical length fixed- size blocks.
- a number of data transformations may optionally be applied to each block in step 506, and an information dispersal algorithm is applied in step 508.
- the Cauchy Reed-Solomon dispersal algorithm could be applied to each block, resulting in a predetermined number of data slices.
- step 510 a number of data transformations are optionally applied to each data slice.
- writes are performed transactionally, meaning that all data slices must be successfully written before a write is deemed complete.
- a write transaction is initiated to the data storage network.
- all slice servers are simultaneously contacted, and in step 514, a confirmation that at least n receiving slice servers are prepared to begin the write transaction must be received, or the transaction is rolled back in step 516.
- step 518 blocks are grouped for transmission, and in step 520 data slices are transmitted to the slice servers that indicated their ability to receive and store slices.
- the number of slice servers that successfully received and stored their assigned data slices is checked in step 522, and if less than n slices are successfully stored, the transaction is rolled back in step 516.
- step 524 a commit transaction is begun on all servers with successful writes. If the commit transaction fails, an error is logged in step 528.
Abstract
A block-based interface to a dispersed data storage network is disclosed. The disclosed interface accepts read and write commands from a file system resident on a user's computer and generates network commands that are forwarded to slice servers that form the storage component of the dispersed data storage network. The slice servers then fulfill the read and write commands.
Description
BLOCK BASED ACCESS TO A DISPERSED DATA STORAGE NETWORK
Inventors: S. Christopher Gladwin, Greg Dhuse, Vance Thornton, Manish Motwani, Jason Resch, llya Volvovski, Jamie Bellanca, John Quigley
Field of the Invention
[001] The present invention relates generally to systems, apparatus, and methods for distributed data storage, and more particularly to systems, apparatus, and methods for distributed data storage using an information dispersal algorithm so that no one location will store an entire copy of stored data, and more particularly still to systems, apparatus, and methods for block based access to a dispersed data storage network.
Description of the Prior Art
[002] Storing data in digital form is a well-known problem associated with all computer systems, and numerous solutions to this problem are known in the art. The simplest solution involves merely storing digital data in a single location, such as a punch film, hard drive, or FLASH memory device. However, storage of data in a single location is inherently unreliable. The device storing the data can malfunction or be destroyed through natural disasters, such as a flood, or through a malicious act, such as arson. In addition, digital data is generally stored in a usable file, such as a document that can be opened with the appropriate word processing software, or a financial ledger that can be opened with the appropriate spreadsheet
software. Storing an entire usable file in a single location is also inherently insecure as a malicious hacker only need compromise that one location to obtain access to the usable file.
[003] To address reliability concerns, digital data is often "backed-up," i.e., an additional copy of the digital data is made and maintained in a separate physical location. For example, a backup tape of all network drives may be made by a small office and maintained at the home of a trusted employee. When a backup of digital data exists, the destruction of either the original device holding the digital data or the backup will not compromise the digital data. However, the existence of the backup exacerbates the security problem, as a malicious hacker can choose between two locations from which to obtain the digital data. Further, the site where the backup is stored may be far less secure than the original location of the digital data, such as in the case when an employee stores the tape in her home.
[004] Another method used to address reliability and performance concerns is the use of a Redundant Array of Independent Drives ("RAID"). RAID refers to a collection of data storage schemes that divide and replicate data among multiple storage units. Different configurations of RAID provide increased performance, improved reliability, or both increased performance and improved reliability. In certain configurations of RAID, when digital data is stored, it is split into multiple stripes, each of which is stored on a separate drive. Data striping is performed in an algorithmically certain way so that the data can be reconstructed. While certain RAID configurations can improve
reliability, RAID does nothing to address security concerns associated with digital data storage.
[005] One method that prior art solutions have addressed security concerns is through the use of encryption. Encrypted data is mathematically coded so that only users with access to a certain key can decrypt and use the data. Common forms of encryption include DES, AES, RSA, and others. While modern encryption methods are difficult to break, numerous instances of successful attacks are known, some of which have resulted in valuable data being compromised.
[006] Files are usually organized in file systems, which are software components usually associated with an operating system. Typically, a file system provides means for creating, updating, maintaining, and hierarchically organizing digital data. A file system accepts digital data of arbitrary size, segments the digital data into fixed-size blocks, and maintains a record of precisely where on the physical media data is stored and what file the data is associated with. In addition, file systems provide hierarchical directory structures to better organize numerous files.
[007] Various interfaces to storage devices are also well known in the art.
For example, Small Computer System Interface ("SCSI") is a well known family of interfaces for connecting and transferring data between computers and peripherals, including storage. There are also a number of standards for transferring data between computers and storage area networks ("SAN"). For example, Fibre Channel is a networking technology that is primarily used to implement SANs. Fibre Channel SANS can be accessed through SCSI
interfaces via Fibre Channel Protocol ("FCP"), which effectively bridges Fibre Channel to higher level protocols within SCSI. Internet Small Computer System Interface ("iSCSI"), which allows the use of the SCSI protocol over IP networks, is an alternative to FCP, and has been used to implement lower cost SANs using Ethernet instead of Fibre Channel as the physical connection. Interfaces for both FCP and iSCSI are available for many different operating systems, and both protocols are widely used. The iSCSI standard is described in "Java iSCSI Initiator," by Volker Wildi, and Internet Engineering Task Force RFC 3720, both of which are hereby incorporated by reference. In 1979, two researchers independently developed a method for splitting data among multiple recipients called "secret sharing." One of the characteristics of secret sharing is that a piece of data may be split among n recipients, but cannot be known unless at least t recipients share their data, where n > t. For example, a trivial form of secret sharing can be implemented by assigning a single random byte to every recipient but one, who would receive the actual data byte after it had been bitwise exclusive orred with the random bytes. In other words, for a group of four recipients, three of the recipients would be given random bytes, and the fourth would be given a byte calculated by the following formula: s = s ® ra ® rb ® rc , where s is the original source data, ra, r^ and rc are random bytes given to three of the four recipients, and s' is the encoded byte given to the fourth
recipient. The original byte s can be recovered by bitwise exclusive-orring all four bytes together.
[009] The problem of reconstructing data stored on a digital medium that is subject to damage has also been addressed in the prior art. In particular, Reed-Solomon and Cauchy Reed-Solomon coding are two well-known methods of dividing encoded information into multiple slices so that the original information can be reassembled even if all of the slices are not available. Reed-Solomon coding, Cauchy Reed-Solomon coding, and other data coding techniques are described in "Erasure Codes for Storage Applications," by Dr. James S. Plank, which is hereby incorporated by reference.
[0010] Schemes for implementing dispersed data storage networks
("DDSNs"), which are also known as dispersed data storage grids, are also known in the art. In particular, United States Patent Number 5,485,474, issued to Michael O. Rabin, describes a system for splitting a segment of digital information into n data slices, which are stored in separate devices. When the data segment must be retrieved, only m of the original data slices are required to reconstruct the data segment, where n>m.
[0011] However, prior art dispersed data storage networks have had limited application. In particular, the prior art dispersed data storage networks have not been generally accessible by commonly used operating systems. Rather, dispersed data storage networks have been used to accomplish specific tasks, such as securing extremely sensitive information, or for experimental purposes. Nonetheless, a generally accessible dispersed data
storage network would offer significant utility to a wide variety of users. For example, a dispersed data storage network could be interfaced to servers implementing an online store and used to warehouse customer information, like credit card numbers. This would allow the online store the advantages of a dispersed data network without having to implement a special interface to the dispersed data network. Other uses of a block-based interface to a dispersed data storage network are apparent to a person of ordinary skill in the art. Objects of the Invention
[0012] Accordingly, it is an object of this invention to provide a system, apparatus, and method for creating and operating a widely accessible dispersed data storage network.
[0013] Another object of this invention is to enable dispersed data storage networks to integrate with commonly used operating systems, and to use commonly available file systems, such as NTFS, HFS+, and ext3.
[0014] Another object of this invention is to provide an improved method of writing data to dispersed data storage network.
[0015] Another object of this invention is to provide an improved method of reading data from a dispersed data storage network. Summary of the Invention
[0016] The disclosed invention achieves its objectives by providing a block- based interface to a dispersed data storage network. A block-based interface can be provided through means such as a customized iSCSI Target, or through a device driver written for a specific operating system. By
providing a block-based interface, a dispersed data storage network can be mounted onto a computer system as an ordinary drive. The user of the computer can then interact with the dispersed data storage network as if it were an ordinary drive, i.e., files can be copied to the dispersed data storage network by dragging them to the appropriate drive icon. In addition, a user of the dispersed data storage network can use file systems provided by the operating system of the user's computer, such as NTFS, HFS+ and ext3.
[0017] In one aspect of the disclosed invention, a method of reading data from a dispersed data storage network is disclosed. A fixed-size block of data is requested from an interface operating on a user's computer. In response to the requested block of data, a list of slice servers holding data slices associated with the requested block is assembled. The data slices associated with the requested block are then read from the slice servers on the assembled list until enough data slices have been read to reconstruct the requested data block. The requested data block is then assembled and provided to a requesting application through an interface on the user's computer.
[0018] As part of the process of reading a block of data from the dispersed data storage network, data slices may be decrypted or decompressed. In addition, a checksum may be computed for each received data slice and compared to a CRC or other form of checksum appended to the data slice to ensure the integrity of the received data slice. Similar procedures may be performed on each assembled block.
[0019] In another aspect of the disclosed invention, a method of writing data to a dispersed data storage network is disclosed. A fixed-size block of data is accepted by an interface on a user's computer. The block is then segmented into a predetermined number of data slices, each of which is then transmitted to a separate slice server for storage.
[0020] As part of the process of writing a block of data to the dispersed data storage network, the data block may be encrypted or compressed. In addition, a checksum may be computed and appended to each block, so that the integrity of each block may be verified when read from the dispersed data storage network. Similar procedures may be formed for each written data slice.
[0021] In yet another aspect of the disclosed invention, a distributed computer system implementing a dispersed data storage network is disclosed. The system includes an operating system with one or more file system components, such as NTFS, FAT32, HFS+, or ext3. The file system will expose interfaces to application programs allowing digital files to be read and written. The system also includes a data dispersal/assembly software component, which interacts with the file system and slice servers resident on dispersed data storage network via a network layer.
[0022] The disclosed distributed computer system could implement a block- based interface to the dispersed data storage network via an iSCSI Target. Alternatively, the block-based interface could be implemented as a device driver.
Brief Description of the Drawings
Although the characteristic features of this invention will be particularly pointed out in the claims, the invention itself, and the manner in which it may be made and used, may be better understood by referring to the following description taken in connection with the accompanying drawings forming a part hereof, wherein like reference numerals refer to like parts throughout the several views and in which:
Figure 1 is a network diagram of a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention;
Figure 2 is a block diagram illustrating the interoperation of different software components used to implement a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention;
Figure 3 is a block diagram illustrating the interoperation of different software components used to implement a dispersed data storage network constructed in accordance with a different embodiment of the disclosed invention;
Figures 4A-4C collectively illustrates a read operation from a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention;
Figures 5A-5B collectively illustrates a write operation from a dispersed data storage network constructed in accordance with an embodiment of the disclosed invention. Detailed Description of the Illustrated Embodiment
[0024] Turning to the Figures, and to Figure 1 in particular, a distributed computer system implementing a dispersed data storage network 100 is shown. An arbitrary number of slice servers 150-162 store data slices sent to them by networked source computers 102,104,106. As illustrated, some number of grid access computers 120,122 serve as networked iSCSI Targets for an arbitrary number of source computers 102,104,106, which are configured as iSCSI Initiators.
[0025] As explained herein, the disclosed invention allows a dispersed data storage network to be presented as a block device which can be mounted as a network drive by compatible operating systems. As illustrated, the dispersed data storage network is accessed by the source computers 102,104,106, as an iSCSI Target. In particular, each source computer 102,104,106 writes data blocks to an iSCSI Initiator, which forms network commands that are directed to an associated iSCSI Target, which is in this case implemented on grid access computers 120,122. Note that an iSCSI Target could be implemented on the source computers 102,104,106, which would make the grid access computers 120,122 unnecessary. In addition, a different storage protocol, such as FCP or ATA over Ethernet could be used, or a device driver could be implemented directly on the source computers 102,104,106 to present the dispersed data storage network as a mounted
drive. The iSCSI implementation discussed herein is only used as a device to aid the understanding of the disclosed invention by a person of ordinary skill in the art.
[0026] Figure 2 illustrates a distributed computer system implementing a dispersed data storage network 200. The illustrated system consists of a client / user computer 202, a grid access computer 220, and some number of slice servers 240,250,260. Within the client computer 202 an application program 204 accesses an operating system including a file system 206. The operating system may include a separate block layer 208, meaning an interface to block devices such as storage device drivers, or the functionality of the block layer 208 may be incorporated into the file system 206. In either case, read and write commands directed to the file system are forwarded to an iSCSI Initiator 210, which formulates network commands that are carried out by a network layer 212, which is also part of the operating system operating on the client computer 202.
[0027] As illustrated, the iSCSI Initiator 210 operating on the client computer
202 is configured to operate with iSCSI Target 222, resident on grid access computer 220. The iSCSI Target 222 receives network commands from the iSCSI Initiator 210 via a separate network layer 224 operating on the grid access computer 220. As opposed to a standard iSCSI Target, which would merely store data on one or more drives accessible to the iSCSI Target, the iSCSI Target 222 operating on the grid access computer 220 is configured to operate with a dispersed data storage network. As will be explained in more detail in the sections that follow, the iSCSI Target 222 implements a
data dispersal algorithm in accordance with the commands received from the iSCSI Initiator 210, and either retrieves data from appropriate slice servers 240,250,260 or writes data to the same. Each slice server 240,250,260 also contains a grid server application 244,254,264 that stores and retrieves data slices in accordance with network commands received from the grid access computer 220 via the network layers 242,252,262 of the respective slice servers 240,250,260.
[0028] Figure 3 illustrates a slightly different distributed computer system implementing a dispersed data storage network 300. The illustrated system is identical to that shown in Figure 2, except that the grid access computer 220 has been entirely removed, and, instead of using an iSCSI Target 222 to implement a block interface to the dispersed data storage network, a device driver 310 resident on the client user computer 302 implements the block interface. In this implementation, the device driver 310 receives read and write commands from the file system 206. The device driver 310 is configured to fulfill read and write commands through the dispersed data storage network 240,250,260. Like the iSCSI Target 222 of the previously discussed implementation, the device driver 310 implements a data dispersal algorithm in accordance with the commands received from the file system 206, and either retrieves data from appropriate slice servers 240,250,260 or writes data to the same. The embodiment of Figure 3 is otherwise similar to that of Figure 2.
[0029] Figures 4A-4C show the process by which an iSCSI Target, or other data dispersal/assembly software component, constructed in accordance
with the disclosed invention could handle a read request. In step 402, a read request is received. Contained within the read request will be information sufficient to determine which slice servers contain applicable data, as well as the minimum number of data slices that must be retrieved before the requested data can be reconstructed. Further information on one method that can be used to associate data requests with particular slice servers is contained in United States Patent Application ; 11/973 , 621, titled "VIRTUALIZED DATA STORAGE VAULTS ON A DISPERSED DATA STORAGE NETWORK," filed on October 9, 2007 and assigned to Cleversafe, Inc. In step 404, the variable m is initialized to the minimum number of slices required to construct the requested data. As described herein, for each successfully received and validated slice, m is decremented. In step 406, a list of slice servers each holding one required data slice that has yet to be received is assembled, and in step 408, the list is ordered by any applicable criteria. Further information on criteria by which the list may be ordered is contained in United States Patent Application 11/973, 622, titled "SMART ACCESS TO A DISPERSED DATA
STORAGE NETWORK," filed on October 9, 2007 and assigned to Cleversafe, Inc. In step 410, read requests are issued to the first k slice servers on the assembled list, where k is at least equal to m, the minimum number of data slices needed to reconstruct the requested data segment, but could be as large as n, the number of data slices that have data relevant to the requested data segment. In step 412, r data slices are received, and
in step 414 the number of received data slices r is subtracted from the variable m. Note that the number of received data slices r may be smaller than the number of requested data slices k. In step 416, m is compared to zero, and if m is not equal to zero, execution returns to step 406, and execution proceeds as normal from there. However, if m is equal to zero, a collection of data transformations may optionally be applied to the received slices in step 418. The applied data transformations can include decryption, decompression, and integrity checking. For example, each data slice may have a cyclical redundancy check ("CRC"), or other form of checksum appended to the data contained in the slice. This checksum could be compared against a checksum calculated against the received data to ensure that the data was not corrupted while it was stored or during the transmission process. In step 420, it is determined if the applied data transformations were successful for all of the received data slices. If the applied data transformations were not successful for some of the received slices, m is incremented by this number in step 422, and execution is resumed at step 406. The data transformations could fail, for example, if an integrity check revealed that a received data slice may be been corrupted. However, if the applied data transformations were successful for all received data slices, the received slices are assembled into the requested block of data in step 424. The same or different data transformations may optionally be applied to the assembled data block in step 426, which completes the read process.
[0032] In Figures 5A-5B, the process by which an iSCSI Target, or other data dispersal/assembly software component, constructed in accordance with the disclosed invention could handle a write request is illustrated. In step 502 a write request is received. Included in this write request is a data segment to be written that could span many fixed length blocks. In addition, the write request will contain information sufficient to determine which slice servers the data segment should be written to, as well as information required by the information dispersal algorithm to slice each block, i.e., the number of slices to be written, referred to as n, as well as the minimum number of slices that are required to recover the data, referred to as m. Further information on one method that can be used to associate data writes with particular slice servers is contained in United States Patent Application
11/973 , 621 , titled "VIRTUALIZED DATA STORAGE
VAULTS ON A DISPERSED DATA STORAGE NETWORK," filed on October 9, 2007 and assigned to Cleversafe, Inc.
[0033] In step 504, the data segment is blocked into identical length fixed- size blocks. A number of data transformations may optionally be applied to each block in step 506, and an information dispersal algorithm is applied in step 508. In particular, the Cauchy Reed-Solomon dispersal algorithm could be applied to each block, resulting in a predetermined number of data slices. In step 510, a number of data transformations are optionally applied to each data slice.
[0034] In the disclosed system, writes are performed transactionally, meaning that all data slices must be successfully written before a write is
deemed complete. In step 512, a write transaction is initiated to the data storage network. As discussed herein, all slice servers are simultaneously contacted, and in step 514, a confirmation that at least n receiving slice servers are prepared to begin the write transaction must be received, or the transaction is rolled back in step 516.
[0035] In step 518 blocks are grouped for transmission, and in step 520 data slices are transmitted to the slice servers that indicated their ability to receive and store slices. The number of slice servers that successfully received and stored their assigned data slices is checked in step 522, and if less than n slices are successfully stored, the transaction is rolled back in step 516. In step 524, a commit transaction is begun on all servers with successful writes. If the commit transaction fails, an error is logged in step 528.
[0036] The foregoing description of the invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or to limit the invention to the precise form disclosed. The description was selected to best explain the principles of the invention and practical application of these principles to enable others skilled in the art to best utilize the invention in various embodiments and various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention not be limited by the specification, but be defined by the claims set forth below.
Claims
[C1] 1. A method of reading data from a dispersed data network, said method operating on at least one computer and comprising the steps of: i) requesting a block of data from an interface operating on said computer, said interface adapted to provide data in block format; ii) assembling a list of slice servers, wherein each slice server on said list can access at least one data slice associated with said requested block of data; iii) repeating the following steps:
(1) issuing a request for said data slice from at least one of the slice servers on said list;
(2) receiving said data slice from at least one of the slice servers to which said request was issued; until sufficient data slices have been received to assemble said requested block of data; iv) assembling said requested block of data; and v) providing said block of data from said interface.
[C2] 2. The method of claim 1 wherein said block of data is encrypted and further comprising the step of decrypting said assembled block of data.
[C3] 3. The method of claim 1 , further comprising the steps of calculating a first checksum for said block of data, and comparing said first checksum to a second checksum appended to said block of data.
[C4] 4. The method of claim 1 , further comprising the steps of calculating a first checksum for a received data slice, and comparing said first checksum to a second checksum appended to said received data slice.
[C5] 5. A method of writing data to a dispersed data network, said method operating on at least one computer and comprising the steps of: i) writing at least one block of data to a software interface operating on said computer, said interface adapted to accept data in block format; ii) segmenting said block of data into a plurality of data slices, wherein each of said data slices includes less than all data contained in said block of data; iii) transmitting said data slices to a plurality of slice servers, wherein each of said data slices is transmitted to a separate slice server; and iv) storing each of said data slices on the particular slice server to which it was transmitted.
[C6] 6. The method of claim 5, further comprising the step of encrypting said block of data.
[C7] 7. The method of claim 5, further comprising the steps of calculating a checksum for said block of data and appending said checksum to said block of data.
[C8] 8. The method of claim 5, further comprising the steps of calculating a checksum for a data slice and appending said checksum to said data slice.
[C9] 9. A distributed computer system implementing a dispersed data storage network comprising: i) an operating system including a file system for creating, updating, maintaining and organizing digital files in block format, and at least one read interface enabling digital files to be read; ii) an application software program programmatically coupled to said operating system and using said read interface; iii) a data assembly software component accepting a plurality of data slices and providing blocks to said file system, wherein each of said blocks are constructed from said data slices in accordance with a data assembly algorithm; iv) a network layer receiving a plurality of data slices from a plurality of slice servers and providing said data slices to said data assembly software component; and v) a grid server application program operating on each of said slice servers and providing data slices to said network layer. [C10] 10. The distributed computer system of claim 9, wherein said data assembly software component is implemented as an iSCSI target. [C11] 1 1. The distributed computer system of claim 10, wherein said operating system and said application software program operate on a first computer and said iSCSI target operates on a second computer. [C12] 12. The distributed computer system of claim 9, wherein said data assembly software component is implemented as a device driver. [C13] 13. A distributed computer system implementing a dispersed data storage network comprising: i) an operating system including a file system for creating, updating, maintaining and organizing digital files in block format, and at least one write interface enabling digital files to be written; ii) an application software program programmatically coupled to said operating system and using said write interface; iii) a data dispersal software component accepting blocks from said file system and generating a plurality of data slices for each accepted block, wherein said accepted block may be reconstructed from less than all of said data slices; iv) a network layer accepting said data slices and forwarding each of said data slices to a separate network address; and v) a grid server application program operating on a plurality of slice servers, each of said slice servers receiving and storing one of said data slices. [C14] 14. The distributed computer system of claim 13, wherein said data dispersal software component is implemented as an iSCSI target. [C15] 15. The distributed computer system of claim 14, wherein said operating system and said application software program operate on a first computer and said iSCSI target operates on a second computer. [C16] 16. The distributed computer system of claim 13, wherein said data dispersal software component is implemented as a device driver.
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EP2201461B1 (en) | 2019-07-10 |
EP2201461A4 (en) | 2012-08-22 |
US20110072115A1 (en) | 2011-03-24 |
US8285878B2 (en) | 2012-10-09 |
US9578097B2 (en) | 2017-02-21 |
EP2201461A1 (en) | 2010-06-30 |
US20100023524A1 (en) | 2010-01-28 |
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