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File descriptor

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Template:Short description In Unix and Unix-like computer operating systems, a file descriptor (FD, less frequently fildes) is a process-unique identifier (handle) for a file or other input/output resource, such as a pipe or network socket.

File descriptors typically have non-negative integer values, with negative values being reserved to indicate "no value" or error conditions.

File descriptors are a part of the POSIX API. Each Unix process (except perhaps daemons) should have three standard POSIX file descriptors, corresponding to the three standard streams:

Integer value Name Template:Mono symbolic constant<ref>{{#invoke:citation/CS1|citation CitationClass=web

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Template:Mono file stream<ref>{{#invoke:citation/CS1|citation CitationClass=web

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0 Standard input Template:Mono Template:Mono
1 Standard output Template:Mono Template:Mono
2 Standard error Template:Mono Template:Mono

OverviewEdit

File:File table and inode table.svg
File descriptors for a single process, file table and inode table. Note that multiple file descriptors can refer to the same file table entry (e.g., as a result of the dup system callTemplate:RTemplate:Rp) and that multiple file table entries can in turn refer to the same inode (if it has been opened multiple times; the table is still simplified because it represents inodes by file names, even though an inode can have multiple names). File descriptor 3 does not refer to anything in the file table, signifying that it has been closed.

In the traditional implementation of Unix, file descriptors index into a per-process Template:Visible anchor maintained by the kernel, that in turn indexes into a system-wide table of files opened by all processes, called the Template:Visible anchor. This table records the mode with which the file (or other resource) has been opened: for reading, writing, appending, and possibly other modes. It also indexes into a third table called the inode table that describes the actual underlying files.<ref name="bach">Template:Cite book</ref> To perform input or output, the process passes the file descriptor to the kernel through a system call, and the kernel will access the file on behalf of the process. The process does not have direct access to the file or inode tables.

On Linux, the set of file descriptors open in a process can be accessed under the path /proc/PID/fd/, where PID is the process identifier. File descriptor /proc/PID/fd/0 is stdin, /proc/PID/fd/1 is stdout, and /proc/PID/fd/2 is stderr. As a shortcut to these, any running process can also access its own file descriptors through the folders /proc/self/fd and /dev/fd.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

In Unix-like systems, file descriptors can refer to any Unix file type named in a file system. As well as regular files, this includes directories, block and character devices (also called "special files"), Unix domain sockets, and named pipes. File descriptors can also refer to other objects that do not normally exist in the file system, such as anonymous pipes and network sockets.

The FILE data structure in the C standard I/O library usually includes a low level file descriptor for the object in question on Unix-like systems. The overall data structure provides additional abstraction and is instead known as a file handle.

Operations on file descriptorsEdit

The following lists typical operations on file descriptors on modern Unix-like systems. Most of these functions are declared in the <unistd.h> header, but some are in the <fcntl.h> header instead.

Creating file descriptorsEdit

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Deriving file descriptorsEdit

Operations on a single file descriptorEdit

Operations on multiple file descriptorsEdit

Operations on the file descriptor tableEdit

The Template:Mono function is used to perform various operations on a file descriptor, depending on the command argument passed to it. There are commands to get and set attributes associated with a file descriptor, including Template:Mono and Template:Mono.

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Operations that modify process stateEdit

  • Template:Mono (sets the process's current working directory based on a directory file descriptor)
  • Template:Mono (maps ranges of a file into the process's address space)

File lockingEdit

SocketsEdit

Template:See also

MiscellaneousEdit

  • [[ioctl|Template:Mono]] (a large collection of miscellaneous operations on a single file descriptor, often associated with a device)

at suffix operationsEdit

A series of new operations has been added to many modern Unix-like systems, as well as numerous C libraries, to be standardized in a future version of POSIX.<ref>Template:Cite book</ref> The at suffix signifies that the function takes an additional first argument supplying a file descriptor from which relative paths are resolved, the forms lacking the at suffix thus becoming equivalent to passing a file descriptor corresponding to the current working directory. The purpose of these new operations is to defend against a certain class of TOCTOU attacks.

File descriptors as capabilitiesEdit

Unix file descriptors behave in many ways as capabilities. They can be passed between processes across Unix domain sockets using the sendmsg() system call. Note, however, that what is actually passed is a reference to an "open file description" that has mutable state (the file offset, and the file status and access flags). This complicates the secure use of file descriptors as capabilities, since when programs share access to the same open file description, they can interfere with each other's use of it by changing its offset or whether it is blocking or non-blocking, for example.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> In operating systems that are specifically designed as capability systems, there is very rarely any mutable state associated with a capability itself.

A Unix process' file descriptor table is an example of a C-list.

See alsoEdit

ReferencesEdit

Template:Reflist

Template:Object-capability security Template:Computer files

de:Handle#Datei-Handle

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