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NAME

       read - read from a file descriptor

LIBRARY

       Standard C library (libc, -lc)

SYNOPSIS

       #include <unistd.h>

       ssize_t read(int fd, void buf[.count], size_t count);

DESCRIPTION

       read() attempts to read up to count bytes from file descriptor fd into the buffer starting
       at buf.

       On files that support seeking, the read operation commences at the file  offset,  and  the
       file  offset is incremented by the number of bytes read.  If the file offset is at or past
       the end of file, no bytes are read, and read() returns zero.

       If count is zero, read() may detect the errors described below.  In  the  absence  of  any
       errors,  or  if  read() does not check for errors, a read() with a count of 0 returns zero
       and has no other effects.

       According to POSIX.1, if count is greater than SSIZE_MAX, the  result  is  implementation-
       defined; see NOTES for the upper limit on Linux.

RETURN VALUE

       On  success,  the  number  of bytes read is returned (zero indicates end of file), and the
       file position is advanced by this number.  It is not an error if this  number  is  smaller
       than  the  number  of bytes requested; this may happen for example because fewer bytes are
       actually available right now (maybe because we were close to end-of-file,  or  because  we
       are  reading  from  a  pipe,  or  from a terminal), or because read() was interrupted by a
       signal.  See also NOTES.

       On error, -1 is returned, and errno is set to indicate the error.  In  this  case,  it  is
       left unspecified whether the file position (if any) changes.

ERRORS

       EAGAIN The  file  descriptor  fd  refers to a file other than a socket and has been marked
              nonblocking (O_NONBLOCK), and the  read  would  block.   See  open(2)  for  further
              details on the O_NONBLOCK flag.

       EAGAIN or EWOULDBLOCK
              The  file  descriptor  fd  refers  to  a  socket  and  has  been marked nonblocking
              (O_NONBLOCK), and the read would block.  POSIX.1-2001 allows  either  error  to  be
              returned  for  this  case,  and  does  not require these constants to have the same
              value, so a portable application should check for both possibilities.

       EBADF  fd is not a valid file descriptor or is not open for reading.

       EFAULT buf is outside your accessible address space.

       EINTR  The call was interrupted by a signal before any data was read; see signal(7).

       EINVAL fd is attached to an object which is unsuitable for reading; or the file was opened
              with  the  O_DIRECT  flag,  and  either  the  address  specified  in buf, the value
              specified in count, or the file offset is not suitably aligned.

       EINVAL fd was created via a call to timerfd_create(2) and the wrong size buffer was  given
              to read(); see timerfd_create(2) for further information.

       EIO    I/O  error.   This  will  happen  for  example  when the process is in a background
              process group, tries to read from  its  controlling  terminal,  and  either  it  is
              ignoring  or  blocking SIGTTIN or its process group is orphaned.  It may also occur
              when there is a low-level I/O error while reading from a disk or tape.   A  further
              possible  cause  of  EIO on networked filesystems is when an advisory lock had been
              taken out on the file descriptor and this lock has been lost.  See the  Lost  locks
              section of fcntl(2) for further details.

       EISDIR fd refers to a directory.

       Other errors may occur, depending on the object connected to fd.

STANDARDS

       SVr4, 4.3BSD, POSIX.1-2001.

NOTES

       The  types  size_t  and  ssize_t are, respectively, unsigned and signed integer data types
       specified by POSIX.1.

       On  Linux,  read()  (and  similar  system  calls)  will  transfer   at   most   0x7ffff000
       (2,147,479,552)  bytes, returning the number of bytes actually transferred.  (This is true
       on both 32-bit and 64-bit systems.)

       On NFS filesystems, reading small amounts of data will update the timestamp only the first
       time,  subsequent  calls  may not do so.  This is caused by client side attribute caching,
       because most if not all NFS clients leave st_atime (last file access time) updates to  the
       server,  and  client  side reads satisfied from the client's cache will not cause st_atime
       updates on the server as there are no server-side reads.  UNIX semantics can  be  obtained
       by disabling client-side attribute caching, but in most situations this will substantially
       increase server load and decrease performance.

BUGS

       According to POSIX.1-2008/SUSv4 Section XSI 2.9.7 ("Thread Interactions with Regular  File
       Operations"):

           All  of  the  following  functions  shall  be atomic with respect to each other in the
           effects specified in POSIX.1-2008 when they  operate  on  regular  files  or  symbolic
           links: ...

       Among  the  APIs  subsequently listed are read() and readv(2).  And among the effects that
       should be atomic across threads (and processes) are updates of the file offset.   However,
       before  Linux  3.14,  this  was  not  the  case:  if two processes that share an open file
       description (see open(2)) perform a read() (or readv(2)) at the same time,  then  the  I/O
       operations were not atomic with respect updating the file offset, with the result that the
       reads in the two processes might (incorrectly) overlap in the blocks  of  data  that  they
       obtained.  This problem was fixed in Linux 3.14.

SEE ALSO

       close(2),  fcntl(2),  ioctl(2),  lseek(2),  open(2),  pread(2),  readdir(2),  readlink(2),
       readv(2), select(2), write(2), fread(3)