Chapter 11 File System Implementation Chapter 11 File
- Slides: 55
Chapter 11: File System Implementation
Chapter 11: File System Implementation n File-System Structure n File-System Implementation n Directory Implementation n Allocation Methods n Free-Space Management n Efficiency and Performance n Recovery n Log-Structured File Systems n NFS n Example: WAFL File System Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 2 Silberschatz, Galvin and Gagne © 2005
Objectives n To describe the details of implementing local file systems and directory structures n To describe the implementation of remote file systems n To discuss block allocation and free-block algorithms and trade-offs Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 3 Silberschatz, Galvin and Gagne © 2005
File-System Structure n File structure l Logical storage unit l Collection of related information n File system resides on secondary storage (disks) n File system organized into layers n File control block – storage structure consisting of information about a file Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 4 Silberschatz, Galvin and Gagne © 2005
Layered File System Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 5 Silberschatz, Galvin and Gagne © 2005
A Typical File Control Block Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 6 Silberschatz, Galvin and Gagne © 2005
In-Memory File System Structures n The following figure illustrates the necessary file system structures provided by the operating systems. n Figure 12 -3(a) refers to opening a file. n Figure 12 -3(b) refers to reading a file. Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 7 Silberschatz, Galvin and Gagne © 2005
In-Memory File System Structures Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 8 Silberschatz, Galvin and Gagne © 2005
Virtual File Systems n Virtual File Systems (VFS) provide an object-oriented way of implementing file systems. n VFS allows the same system call interface (the API) to be used for different types of file systems. n The API is to the VFS interface, rather than any specific type of file system. Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 9 Silberschatz, Galvin and Gagne © 2005
Schematic View of Virtual File System Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 10 Silberschatz, Galvin and Gagne © 2005
Directory Implementation n Linear list of file names with pointer to the data blocks. l simple to program l time-consuming to execute n Hash Table – linear list with hash data structure. l decreases directory search time l collisions – situations where two file names hash to the same location l fixed size Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 11 Silberschatz, Galvin and Gagne © 2005
Allocation Methods n An allocation method refers to how disk blocks are allocated for files: n Contiguous allocation n Linked allocation n Indexed allocation Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 12 Silberschatz, Galvin and Gagne © 2005
Contiguous Allocation n Each file occupies a set of contiguous blocks on the disk n Simple – only starting location (block #) and length (number of blocks) are required n Random access n Wasteful of space (dynamic storage-allocation problem) n Files cannot grow Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 13 Silberschatz, Galvin and Gagne © 2005
Contiguous Allocation n Mapping from logical to physical Q LA/512 R Block to be accessed = ! + starting address Displacement into block = R Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 14 Silberschatz, Galvin and Gagne © 2005
Contiguous Allocation of Disk Space Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 15 Silberschatz, Galvin and Gagne © 2005
Extent-Based Systems n Many newer file systems (I. e. Veritas File System) use a modified contiguous allocation scheme n Extent-based file systems allocate disk blocks in extents n An extent is a contiguous block of disks l Extents are allocated for file allocation l A file consists of one or more extents. Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 16 Silberschatz, Galvin and Gagne © 2005
Linked Allocation n Each file is a linked list of disk blocks: blocks may be scattered anywhere on the disk. block Operating System Concepts – 7 th Edition, Jan 1, 2005 = pointer 11. 17 Silberschatz, Galvin and Gagne © 2005
Linked Allocation (Cont. ) n Simple – need only starting address n Free-space management system – no waste of space n No random access n Mapping Q LA/511 R Block to be accessed is the Qth block in the linked chain of blocks representing the file. Displacement into block = R + 1 File-allocation table (FAT) – disk-space allocation used by MS-DOS and OS/2. Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 18 Silberschatz, Galvin and Gagne © 2005
Linked Allocation Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 19 Silberschatz, Galvin and Gagne © 2005
File-Allocation Table Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 20 Silberschatz, Galvin and Gagne © 2005
Indexed Allocation n Brings all pointers together into the index block. n Logical view. index table Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 21 Silberschatz, Galvin and Gagne © 2005
Example of Indexed Allocation Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 22 Silberschatz, Galvin and Gagne © 2005
Indexed Allocation (Cont. ) n Need index table n Random access n Dynamic access without external fragmentation, but have overhead of index block. n Mapping from logical to physical in a file of maximum size of 256 K words and block size of 512 words. We need only 1 block for index table. Q LA/512 R Q = displacement into index table R = displacement into block Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 23 Silberschatz, Galvin and Gagne © 2005
Indexed Allocation – Mapping (Cont. ) n Mapping from logical to physical in a file of unbounded length (block size of 512 words). n Linked scheme – Link blocks of index table (no limit on size). Q 1 LA / (512 x 511) R 1 Q 1 = block of index table R 1 is used as follows: Q 2 R 1 / 512 R 2 Q 2 = displacement into block of index table R 2 displacement into block of file: Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 24 Silberschatz, Galvin and Gagne © 2005
Indexed Allocation – Mapping (Cont. ) n Two-level index (maximum file size is 5123) Q 1 LA / (512 x 512) R 1 Q 1 = displacement into outer-index R 1 is used as follows: R 1 / 512 Q 2 R 2 Q 2 = displacement into block of index table R 2 displacement into block of file: Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 25 Silberschatz, Galvin and Gagne © 2005
Indexed Allocation – Mapping (Cont. ) outer-index table Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 26 file Silberschatz, Galvin and Gagne © 2005
Combined Scheme: UNIX (4 K bytes per block) Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 27 Silberschatz, Galvin and Gagne © 2005
Free-Space Management n Bit vector (n blocks) 0 1 2 n-1 … bit[i] = 0 block[i] free 1 block[i] occupied Block number calculation (number of bits per word) * (number of 0 -value words) + offset of first 1 bit Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 28 Silberschatz, Galvin and Gagne © 2005
Free-Space Management (Cont. ) n Bit map requires extra space l Example: block size = 212 bytes disk size = 230 bytes (1 gigabyte) n = 230/212 = 218 bits (or 32 K bytes) n Easy to get contiguous files n Linked list (free list) l Cannot get contiguous space easily l No waste of space n Grouping n Counting Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 29 Silberschatz, Galvin and Gagne © 2005
Free-Space Management (Cont. ) n Need to protect: Pointer to free list l Bit map 4 Must be kept on disk 4 Copy in memory and disk may differ 4 Cannot allow for block[i] to have a situation where bit[i] = 1 in memory and bit[i] = 0 on disk l Solution: 4 Set bit[i] = 1 in disk 4 Allocate block[i] l 4 Set bit[i] = 1 in memory Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 30 Silberschatz, Galvin and Gagne © 2005
Directory Implementation n Linear list of file names with pointer to the data blocks l simple to program l time-consuming to execute n Hash Table – linear list with hash data structure l decreases directory search time l collisions – situations where two file names hash to the same location l fixed size Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 31 Silberschatz, Galvin and Gagne © 2005
Linked Free Space List on Disk Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 32 Silberschatz, Galvin and Gagne © 2005
Efficiency and Performance n Efficiency dependent on: l disk allocation and directory algorithms l types of data kept in file’s directory entry n Performance l disk cache – separate section of main memory for frequently used blocks l free-behind and read-ahead – techniques to optimize sequential access l improve PC performance by dedicating section of memory as virtual disk, or RAM disk Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 33 Silberschatz, Galvin and Gagne © 2005
Page Cache n A page caches pages rather than disk blocks using virtual memory techniques n Memory-mapped I/O uses a page cache n Routine I/O through the file system uses the buffer (disk) cache n This leads to the following figure Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 34 Silberschatz, Galvin and Gagne © 2005
I/O Without a Unified Buffer Cache Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 35 Silberschatz, Galvin and Gagne © 2005
Unified Buffer Cache n A unified buffer cache uses the same page cache to cache both memory-mapped pages and ordinary file system I/O Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 36 Silberschatz, Galvin and Gagne © 2005
I/O Using a Unified Buffer Cache Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 37 Silberschatz, Galvin and Gagne © 2005
Recovery n Consistency checking – compares data in directory structure with data blocks on disk, and tries to fix inconsistencies n Use system programs to back up data from disk to another storage device (floppy disk, magnetic tape, other magnetic disk, optical) n Recover lost file or disk by restoring data from backup Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 38 Silberschatz, Galvin and Gagne © 2005
Log Structured File Systems n Log structured (or journaling) file systems record each update to the file system as a transaction n All transactions are written to a log l A transaction is considered committed once it is written to the log l However, the file system may not yet be updated n The transactions in the log are asynchronously written to the file system l When the file system is modified, the transaction is removed from the log n If the file system crashes, all remaining transactions in the log must still be performed Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 39 Silberschatz, Galvin and Gagne © 2005
The Sun Network File System (NFS) n An implementation and a specification of a software system for accessing remote files across LANs (or WANs) n The implementation is part of the Solaris and Sun. OS operating systems running on Sun workstations using an unreliable datagram protocol (UDP/IP protocol and Ethernet Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 40 Silberschatz, Galvin and Gagne © 2005
NFS (Cont. ) n Interconnected workstations viewed as a set of independent machines with independent file systems, which allows sharing among these file systems in a transparent manner l A remote directory is mounted over a local file system directory 4 The mounted directory looks like an integral subtree of the local file system, replacing the subtree descending from the local directory l Specification of the remote directory for the mount operation is nontransparent; the host name of the remote directory has to be provided 4 Files in the remote directory can then be accessed in a transparent manner l Subject to access-rights accreditation, potentially any file system (or directory within a file system), can be mounted remotely on top of any local directory Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 41 Silberschatz, Galvin and Gagne © 2005
NFS (Cont. ) n NFS is designed to operate in a heterogeneous environment of different machines, operating systems, and network architectures; the NFS specifications independent of these media n This independence is achieved through the use of RPC primitives built on top of an External Data Representation (XDR) protocol used between two implementation-independent interfaces n The NFS specification distinguishes between the services provided by a mount mechanism and the actual remote-file-access services Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 42 Silberschatz, Galvin and Gagne © 2005
Three Independent File Systems Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 43 Silberschatz, Galvin and Gagne © 2005
Mounting in NFS Mounts Operating System Concepts – 7 th Edition, Jan 1, 2005 Cascading mounts 11. 44 Silberschatz, Galvin and Gagne © 2005
NFS Mount Protocol n Establishes initial logical connection between server and client n Mount operation includes name of remote directory to be mounted and name of server machine storing it l Mount request is mapped to corresponding RPC and forwarded to mount server running on server machine l Export list – specifies local file systems that server exports for mounting, along with names of machines that are permitted to mount them n Following a mount request that conforms to its export list, the server returns a file handle—a key for further accesses n File handle – a file-system identifier, and an inode number to identify the mounted directory within the exported file system n The mount operation changes only the user’s view and does not affect the server side Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 45 Silberschatz, Galvin and Gagne © 2005
NFS Protocol n Provides a set of remote procedure calls for remote file operations. The procedures support the following operations: l searching for a file within a directory l reading a set of directory entries l manipulating links and directories l accessing file attributes l reading and writing files n NFS servers are stateless; each request has to provide a full set of arguments (NFS V 4 is just coming available – very different, stateful) n Modified data must be committed to the server’s disk before results are returned to the client (lose advantages of caching) n The NFS protocol does not provide concurrency-control mechanisms Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 46 Silberschatz, Galvin and Gagne © 2005
Three Major Layers of NFS Architecture n UNIX file-system interface (based on the open, read, write, and close calls, and file descriptors) n Virtual File System (VFS) layer – distinguishes local files from remote ones, and local files are further distinguished according to their file-system types l The VFS activates file-system-specific operations to handle local requests according to their file-system types l Calls the NFS protocol procedures for remote requests n NFS service layer – bottom layer of the architecture l Implements the NFS protocol Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 47 Silberschatz, Galvin and Gagne © 2005
Schematic View of NFS Architecture Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 48 Silberschatz, Galvin and Gagne © 2005
NFS Path-Name Translation n Performed by breaking the path into component names and performing a separate NFS lookup call for every pair of component name and directory vnode n To make lookup faster, a directory name lookup cache on the client’s side holds the vnodes for remote directory names Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 49 Silberschatz, Galvin and Gagne © 2005
NFS Remote Operations n Nearly one-to-one correspondence between regular UNIX system calls and the NFS protocol RPCs (except opening and closing files) n NFS adheres to the remote-service paradigm, but employs buffering and caching techniques for the sake of performance n File-blocks cache – when a file is opened, the kernel checks with the remote server whether to fetch or revalidate the cached attributes l Cached file blocks are used only if the corresponding cached attributes are up to date n File-attribute cache – the attribute cache is updated whenever new attributes arrive from the server n Clients do not free delayed-write blocks until the server confirms that the data have been written to disk Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 50 Silberschatz, Galvin and Gagne © 2005
Example: WAFL File System n Used on Network Appliance “Filers” – distributed file system appliances n “Write-anywhere file layout” n Serves up NFS, CIFS, http, ftp n Random I/O optimized, write optimized l NVRAM for write caching n Similar to Berkeley Fast File System, with extensive modifications Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 51 Silberschatz, Galvin and Gagne © 2005
The WAFL File Layout Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 52 Silberschatz, Galvin and Gagne © 2005
Snapshots in WAFL Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 53 Silberschatz, Galvin and Gagne © 2005
11. 02 Operating System Concepts – 7 th Edition, Jan 1, 2005 11. 54 Silberschatz, Galvin and Gagne © 2005
End of Chapter 11
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