@node POSIX @chapter POSIX System Calls and Networking @menu * Conventions:: Conventions employed by the POSIX interface. * Ports and File Descriptors:: Scheme ``ports'' and Unix file descriptors have different representations. * File System:: stat, chown, chmod, etc. * User Information:: Retrieving a user's GECOS (/etc/passwd) entry. * Time:: gettimeofday, localtime, strftime, etc. * Runtime Environment:: Accessing and modifying Guile's environment. * Processes:: getuid, getpid, etc. * Signals:: sigaction, kill, pause, alarm, setitimer, etc. * Terminals and Ptys:: ttyname, tcsetpgrp, etc. * Pipes:: Communicating data between processes. * Networking:: gethostbyaddr, getnetent, socket, bind, listen. * System Identification:: Obtaining information about the system. * Locales:: setlocale, etc. * Encryption:: @end menu @node Conventions @section POSIX Interface Conventions These interfaces provide access to operating system facilities. They provide a simple wrapping around the underlying C interfaces to make usage from Scheme more convenient. They are also used to implement the Guile port of @ref{The Scheme shell (scsh)}. Generally there is a single procedure for each corresponding Unix facility. There are some exceptions, such as procedures implemented for speed and convenience in Scheme with no primitive Unix equivalent, e.g., @code{copy-file}. The interfaces are intended as far as possible to be portable across different versions of Unix. In some cases procedures which can't be implemented on particular systems may become no-ops, or perform limited actions. In other cases they may throw errors. General naming conventions are as follows: @itemize @bullet @item The Scheme name is often identical to the name of the underlying Unix facility. @item Underscores in Unix procedure names are converted to hyphens. @item Procedures which destructively modify Scheme data have exclaimation marks appended, e.g., @code{recv!}. @item Predicates (returning only @code{#t} or @code{#f}) have question marks appended, e.g., @code{access?}. @item Some names are changed to avoid conflict with dissimilar interfaces defined by scsh, e.g., @code{primitive-fork}. @item Unix preprocessor names such as @code{EPERM} or @code{R_OK} are converted to Scheme variables of the same name (underscores are not replaced with hyphens). @end itemize Unexpected conditions are generally handled by raising exceptions. There are a few procedures which return a special value if they don't succeed, e.g., @code{getenv} returns @code{#f} if it the requested string is not found in the environment. These cases are noted in the documentation. For ways to deal with exceptions, @ref{Exceptions}. Errors which the C-library would report by returning a NULL pointer or through some other means are reported by raising a @code{system-error} exception. The value of the Unix @code{errno} variable is available in the data passed by the exception. It can be extracted with the function @code{system-error-errno}: @example (catch 'system-error (lambda () (mkdir "/this-ought-to-fail-if-I'm-not-root")) (lambda stuff (let ((errno (system-error-errno stuff))) (cond ((= errno EACCES) (display "You're not allowed to do that.")) ((= errno EEXIST) (display "Already exists.")) (#t (display (strerror errno)))) (newline)))) @end example @node Ports and File Descriptors @section Ports and File Descriptors Conventions generally follow those of scsh, @ref{The Scheme shell (scsh)}. File ports are implemented using low-level operating system I/O facilities, with optional buffering to improve efficiency @pxref{File Ports} Note that some procedures (e.g., @code{recv!}) will accept ports as arguments, but will actually operate directly on the file descriptor underlying the port. Any port buffering is ignored, including the buffer which implements @code{peek-char} and @code{unread-char}. The @code{force-output} and @code{drain-input} procedures can be used to clear the buffers. Each open file port has an associated operating system file descriptor. File descriptors are generally not useful in Scheme programs; however they may be needed when interfacing with foreign code and the Unix environment. A file descriptor can be extracted from a port and a new port can be created from a file descriptor. However a file descriptor is just an integer and the garbage collector doesn't recognise it as a reference to the port. If all other references to the port were dropped, then it's likely that the garbage collector would free the port, with the side-effect of closing the file descriptor prematurely. To assist the programmer in avoiding this problem, each port has an associated "revealed count" which can be used to keep track of how many times the underlying file descriptor has been stored in other places. If a port's revealed count is greater than zero, the file descriptor will not be closed when the port is gabage collected. A programmer can therefore ensure that the revealed count will be greater than zero if the file descriptor is needed elsewhere. For the simple case where a file descriptor is "imported" once to become a port, it does not matter if the file descriptor is closed when the port is garbage collected. There is no need to maintain a revealed count. Likewise when "exporting" a file descriptor to the external environment, setting the revealed count is not required provided the port is kept open (i.e., is pointed to by a live Scheme binding) while the file descriptor is in use. To correspond with traditional Unix behaviour, the three file descriptors (0, 1 and 2) are automatically imported when a program starts up and assigned to the initial values of the current input, output and error ports. The revealed count for each is initially set to one, so that dropping references to one of these ports will not result in its garbage collection: it could be retrieved with fdopen or fdes->ports. @deffn primitive port-revealed port Return the revealed count for @var{port}. @end deffn @deffn primitive set-port-revealed! port rcount Sets the revealed count for a port to a given value. The return value is unspecified. @end deffn @deffn primitive fileno port Return the integer file descriptor underlying @var{port}. Does not change its revealed count. @end deffn @deffn procedure port->fdes port Returns the integer file descriptor underlying @var{port}. As a side effect the revealed count of @var{port} is incremented. @end deffn @deffn primitive fdopen fdes modes Return a new port based on the file descriptor @var{fdes}. Modes are given by the string @var{modes}. The revealed count of the port is initialized to zero. The modes string is the same as that accepted by @ref{File Ports, open-file}. @end deffn @deffn primitive fdes->ports fd Return a list of existing ports which have @var{fdes} as an underlying file descriptor, without changing their revealed counts. @end deffn @deffn procedure fdes->inport fdes Returns an existing input port which has @var{fdes} as its underlying file descriptor, if one exists, and increments its revealed count. Otherwise, returns a new input port with a revealed count of 1. @end deffn @deffn procedure fdes->outport fdes Returns an existing output port which has @var{fdes} as its underlying file descriptor, if one exists, and increments its revealed count. Otherwise, returns a new output port with a revealed count of 1. @end deffn @deffn primitive primitive-move->fdes port fd Moves the underlying file descriptor for @var{port} to the integer value @var{fdes} without changing the revealed count of @var{port}. Any other ports already using this descriptor will be automatically shifted to new descriptors and their revealed counts reset to zero. The return value is @code{#f} if the file descriptor already had the required value or @code{#t} if it was moved. @end deffn @deffn procedure move->fdes port fdes Moves the underlying file descriptor for @var{port} to the integer value @var{fdes} and sets its revealed count to one. Any other ports already using this descriptor will be automatically shifted to new descriptors and their revealed counts reset to zero. The return value is unspecified. @end deffn @deffn procedure release-port-handle port Decrements the revealed count for a port. @end deffn @deffn primitive fsync object Copies any unwritten data for the specified output file descriptor to disk. If @var{port/fd} is a port, its buffer is flushed before the underlying file descriptor is fsync'd. The return value is unspecified. @end deffn @deffn primitive open path flags [mode] Open the file named by @var{path} for reading and/or writing. @var{flags} is an integer specifying how the file should be opened. @var{mode} is an integer specifying the permission bits of the file, if it needs to be created, before the umask is applied. The default is 666 (Unix itself has no default). @var{flags} can be constructed by combining variables using @code{logior}. Basic flags are: @defvar O_RDONLY Open the file read-only. @end defvar @defvar O_WRONLY Open the file write-only. @end defvar @defvar O_RDWR Open the file read/write. @end defvar @defvar O_APPEND Append to the file instead of truncating. @end defvar @defvar O_CREAT Create the file if it does not already exist. @end defvar See the Unix documentation of the @code{open} system call for additional flags. @end deffn @deffn primitive open-fdes path flags [mode] Similar to @code{open} but return a file descriptor instead of a port. @end deffn @deffn primitive close fd_or_port Similar to close-port (@pxref{Closing, close-port}), but also works on file descriptors. A side effect of closing a file descriptor is that any ports using that file descriptor are moved to a different file descriptor and have their revealed counts set to zero. @end deffn @deffn primitive close-fdes fd A simple wrapper for the @code{close} system call. Close file descriptor @var{fd}, which must be an integer. Unlike close (@pxref{Ports and File Descriptors, close}), the file descriptor will be closed even if a port is using it. The return value is unspecified. @end deffn @deffn primitive unread-char char [port] Place @var{char} in @var{port} so that it will be read by the next read operation. If called multiple times, the unread characters will be read again in last-in first-out order. If @var{port} is not supplied, the current input port is used. @end deffn @deffn primitive unread-string str port Place the string @var{str} in @var{port} so that its characters will be read in subsequent read operations. If called multiple times, the unread characters will be read again in last-in first-out order. If @var{port} is not supplied, the current-input-port is used. @end deffn @deffn primitive pipe Return a newly created pipe: a pair of ports which are linked together on the local machine. The @emph{car} is the input port and the @emph{cdr} is the output port. Data written (and flushed) to the output port can be read from the input port. Pipes are commonly used for communication with a newly forked child process. The need to flush the output port can be avoided by making it unbuffered using @code{setvbuf}. Writes occur atomically provided the size of the data in bytes is not greater than the value of @code{PIPE_BUF}. Note that the output port is likely to block if too much data (typically equal to @code{PIPE_BUF}) has been written but not yet read from the input port. @end deffn The next group of procedures perform a @code{dup2} system call, if @var{newfd} (an integer) is supplied, otherwise a @code{dup}. The file descriptor to be duplicated can be supplied as an integer or contained in a port. The type of value returned varies depending on which procedure is used. All procedures also have the side effect when performing @code{dup2} that any ports using @var{newfd} are moved to a different file descriptor and have their revealed counts set to zero. @deffn primitive dup->fdes fd_or_port [fd] Return a new integer file descriptor referring to the open file designated by @var{fd_or_port}, which must be either an open file port or a file descriptor. @end deffn @deffn procedure dup->inport port/fd [newfd] Returns a new input port using the new file descriptor. @end deffn @deffn procedure dup->outport port/fd [newfd] Returns a new output port using the new file descriptor. @end deffn @deffn procedure dup port/fd [newfd] Returns a new port if @var{port/fd} is a port, with the same mode as the supplied port, otherwise returns an integer file descriptor. @end deffn @deffn procedure dup->port port/fd mode [newfd] Returns a new port using the new file descriptor. @var{mode} supplies a mode string for the port (@pxref{File Ports, open-file}). @end deffn @deffn procedure duplicate-port port modes Returns a new port which is opened on a duplicate of the file descriptor underlying @var{port}, with mode string @var{modes} as for @ref{File Ports, open-file}. The two ports will share a file position and file status flags. Unexpected behaviour can result if both ports are subsequently used and the original and/or duplicate ports are buffered. The mode string can include @code{0} to obtain an unbuffered duplicate port. This procedure is equivalent to @code{(dup->port @var{port} @var{modes})}. @end deffn @deffn primitive redirect-port old new This procedure takes two ports and duplicates the underlying file descriptor from @var{old-port} into @var{new-port}. The current file descriptor in @var{new-port} will be closed. After the redirection the two ports will share a file position and file status flags. The return value is unspecified. Unexpected behaviour can result if both ports are subsequently used and the original and/or duplicate ports are buffered. This procedure does not have any side effects on other ports or revealed counts. @end deffn @deffn primitive dup2 oldfd newfd A simple wrapper for the @code{dup2} system call. Copies the file descriptor @var{oldfd} to descriptor number @var{newfd}, replacing the previous meaning of @var{newfd}. Both @var{oldfd} and @var{newfd} must be integers. Unlike for dup->fdes or primitive-move->fdes, no attempt is made to move away ports which are using @var{newfd}. The return value is unspecified. @end deffn @deffn primitive port-mode port Return the port modes associated with the open port @var{port}. These will not necessarily be identical to the modes used when the port was opened, since modes such as "append" which are used only during port creation are not retained. @end deffn @deffn primitive close-all-ports-except . ports [DEPRECATED] Close all open file ports used by the interpreter except for those supplied as arguments. This procedure was intended to be used before an exec call to close file descriptors which are not needed in the new process. However it has the undesirable side-effect of flushing buffes, so it's deprecated. Use port-for-each instead. @end deffn @deffn primitive port-for-each proc Apply @var{proc} to each port in the Guile port table in turn. The return value is unspecified. More specifically, @var{proc} is applied exactly once to every port that exists in the system at the time @var{port-for-each} is invoked. Changes to the port table while @var{port-for-each} is running have no effect as far as @var{port-for-each} is concerned. @end deffn @deffn primitive setvbuf port mode [size] Set the buffering mode for @var{port}. @var{mode} can be: @table @code @item _IONBF non-buffered @item _IOLBF line buffered @item _IOFBF block buffered, using a newly allocated buffer of @var{size} bytes. If @var{size} is omitted, a default size will be used. @end table @end deffn @deffn primitive fcntl object cmd [value] Apply @var{command} to the specified file descriptor or the underlying file descriptor of the specified port. @var{value} is an optional integer argument. Values for @var{command} are: @table @code @item F_DUPFD Duplicate a file descriptor @item F_GETFD Get flags associated with the file descriptor. @item F_SETFD Set flags associated with the file descriptor to @var{value}. @item F_GETFL Get flags associated with the open file. @item F_SETFL Set flags associated with the open file to @var{value} @item F_GETOWN Get the process ID of a socket's owner, for @code{SIGIO} signals. @item F_SETOWN Set the process that owns a socket to @var{value}, for @code{SIGIO} signals. @item FD_CLOEXEC The value used to indicate the "close on exec" flag with @code{F_GETFL} or @code{F_SETFL}. @end table @end deffn @deffn primitive flock file operation Apply or remove an advisory lock on an open file. @var{operation} specifies the action to be done: @table @code @item LOCK_SH Shared lock. More than one process may hold a shared lock for a given file at a given time. @item LOCK_EX Exclusive lock. Only one process may hold an exclusive lock for a given file at a given time. @item LOCK_UN Unlock the file. @item LOCK_NB Don't block when locking. May be specified by bitwise OR'ing it to one of the other operations. @end table The return value is not specified. @var{file} may be an open file descriptor or an open file descriptior port. @end deffn @deffn primitive select reads writes excepts [secs [usecs]] This procedure has a variety of uses: waiting for the ability to provide input, accept output, or the existance of exceptional conditions on a collection of ports or file descriptors, or waiting for a timeout to occur. It also returns if interrupted by a signal. @var{reads}, @var{writes} and @var{excepts} can be lists or vectors, with each member a port or a file descriptor. The value returned is a list of three corresponding lists or vectors containing only the members which meet the specified requirement. The ability of port buffers to provide input or accept output is taken into account. Ordering of the input lists or vectors is not preserved. The optional arguments @var{secs} and @var{usecs} specify the timeout. Either @var{secs} can be specified alone, as either an integer or a real number, or both @var{secs} and @var{usecs} can be specified as integers, in which case @var{usecs} is an additional timeout expressed in microseconds. If @var{secs} is omitted or is @code{#f} then select will wait for as long as it takes for one of the other conditions to be satisfied. The scsh version of @code{select} differs as follows: Only vectors are accepted for the first three arguments. The @var{usecs} argument is not supported. Multiple values are returned instead of a list. Duplicates in the input vectors appear only once in output. An additional @code{select!} interface is provided. @end deffn @node File System @section File System These procedures allow querying and setting file system attributes (such as owner, permissions, sizes and types of files); deleting, copying, renaming and linking files; creating and removing directories and querying their contents; syncing the file system and creating special files. @deffn primitive access? path how Return @code{#t} if @var{path} corresponds to an existing file and the current process has the type of access specified by @var{how}, otherwise @code{#f}. @var{how} should be specified using the values of the variables listed below. Multiple values can be combined using a bitwise or, in which case @code{#t} will only be returned if all accesses are granted. Permissions are checked using the real id of the current process, not the effective id, although it's the effective id which determines whether the access would actually be granted. @defvar R_OK test for read permission. @end defvar @defvar W_OK test for write permission. @end defvar @defvar X_OK test for execute permission. @end defvar @defvar F_OK test for existence of the file. @end defvar @end deffn @findex fstat @deffn primitive stat object Return an object containing various information about the file determined by @var{obj}. @var{obj} can be a string containing a file name or a port or integer file descriptor which is open on a file (in which case @code{fstat} is used as the underlying system call). The object returned by @code{stat} can be passed as a single parameter to the following procedures, all of which return integers: @table @code @item stat:dev The device containing the file. @item stat:ino The file serial number, which distinguishes this file from all other files on the same device. @item stat:mode The mode of the file. This includes file type information and the file permission bits. See @code{stat:type} and @code{stat:perms} below. @item stat:nlink The number of hard links to the file. @item stat:uid The user ID of the file's owner. @item stat:gid The group ID of the file. @item stat:rdev Device ID; this entry is defined only for character or block special files. @item stat:size The size of a regular file in bytes. @item stat:atime The last access time for the file. @item stat:mtime The last modification time for the file. @item stat:ctime The last modification time for the attributes of the file. @item stat:blksize The optimal block size for reading or writing the file, in bytes. @item stat:blocks The amount of disk space that the file occupies measured in units of 512 byte blocks. @end table In addition, the following procedures return the information from stat:mode in a more convenient form: @table @code @item stat:type A symbol representing the type of file. Possible values are regular, directory, symlink, block-special, char-special, fifo, socket and unknown @item stat:perms An integer representing the access permission bits. @end table @end deffn @deffn primitive lstat str Similar to @code{stat}, but does not follow symbolic links, i.e., it will return information about a symbolic link itself, not the file it points to. @var{path} must be a string. @end deffn @deffn primitive readlink path Return the value of the symbolic link named by @var{path} (a string), i.e., the file that the link points to. @end deffn @findex fchown @findex lchown @deffn primitive chown object owner group Change the ownership and group of the file referred to by @var{object} to the integer values @var{owner} and @var{group}. @var{object} can be a string containing a file name or, if the platform supports fchown, a port or integer file descriptor which is open on the file. The return value is unspecified. If @var{object} is a symbolic link, either the ownership of the link or the ownership of the referenced file will be changed depending on the operating system (lchown is unsupported at present). If @var{owner} or @var{group} is specified as @code{-1}, then that ID is not changed. @end deffn @findex fchmod @deffn primitive chmod object mode Changes the permissions of the file referred to by @var{obj}. @var{obj} can be a string containing a file name or a port or integer file descriptor which is open on a file (in which case @code{fchmod} is used as the underlying system call). @var{mode} specifies the new permissions as a decimal number, e.g., @code{(chmod "foo" #o755)}. The return value is unspecified. @end deffn @deffn primitive utime pathname [actime [modtime]] @code{utime} sets the access and modification times for the file named by @var{path}. If @var{actime} or @var{modtime} is not supplied, then the current time is used. @var{actime} and @var{modtime} must be integer time values as returned by the @code{current-time} procedure. @lisp (utime "foo" (- (current-time) 3600)) @end lisp will set the access time to one hour in the past and the modification time to the current time. @end deffn @findex unlink @deffn primitive delete-file str Deletes (or "unlinks") the file specified by @var{path}. @end deffn @deffn primitive copy-file oldfile newfile Copy the file specified by @var{path-from} to @var{path-to}. The return value is unspecified. @end deffn @findex rename @deffn primitive rename-file oldname newname Renames the file specified by @var{oldname} to @var{newname}. The return value is unspecified. @end deffn @deffn primitive link oldpath newpath Creates a new name @var{newpath} in the file system for the file named by @var{oldpath}. If @var{oldpath} is a symbolic link, the link may or may not be followed depending on the system. @end deffn @deffn primitive symlink oldpath newpath Create a symbolic link named @var{path-to} with the value (i.e., pointing to) @var{path-from}. The return value is unspecified. @end deffn @deffn primitive mkdir path [mode] Create a new directory named by @var{path}. If @var{mode} is omitted then the permissions of the directory file are set using the current umask. Otherwise they are set to the decimal value specified with @var{mode}. The return value is unspecified. @end deffn @deffn primitive rmdir path Remove the existing directory named by @var{path}. The directory must be empty for this to succeed. The return value is unspecified. @end deffn @deffn primitive opendir dirname Open the directory specified by @var{path} and return a directory stream. @end deffn @deffn primitive directory-stream? obj Return a boolean indicating whether @var{object} is a directory stream as returned by @code{opendir}. @end deffn @deffn primitive readdir port Return (as a string) the next directory entry from the directory stream @var{stream}. If there is no remaining entry to be read then the end of file object is returned. @end deffn @deffn primitive rewinddir port Reset the directory port @var{stream} so that the next call to @code{readdir} will return the first directory entry. @end deffn @deffn primitive closedir port Close the directory stream @var{stream}. The return value is unspecified. @end deffn @deffn primitive sync Flush the operating system disk buffers. The return value is unspecified. @end deffn @deffn primitive mknod path type perms dev Creates a new special file, such as a file corresponding to a device. @var{path} specifies the name of the file. @var{type} should be one of the following symbols: regular, directory, symlink, block-special, char-special, fifo, or socket. @var{perms} (an integer) specifies the file permissions. @var{dev} (an integer) specifies which device the special file refers to. Its exact interpretation depends on the kind of special file being created. E.g., @lisp (mknod "/dev/fd0" 'block-special #o660 (+ (* 2 256) 2)) @end lisp The return value is unspecified. @end deffn @deffn primitive tmpnam Return a name in the file system that does not match any existing file. However there is no guarantee that another process will not create the file after @code{tmpnam} is called. Care should be taken if opening the file, e.g., use the @code{O_EXCL} open flag or use @code{mkstemp!} instead. @end deffn @deffn primitive mkstemp! tmpl Create a new unique file in the file system and returns a new buffered port open for reading and writing to the file. @var{tmpl} is a string specifying where the file should be created: it must end with @code{XXXXXX} and will be changed in place to return the name of the temporary file. @end deffn @deffn primitive dirname filename Return the directory name component of the file name @var{filename}. If @var{filename} does not contain a directory component, @code{.} is returned. @end deffn @deffn primitive basename filename [suffix] Return the base name of the file name @var{filename}. The base name is the file name without any directory components. If @var{suffix} is privided, and is equal to the end of @var{basename}, it is removed also. @end deffn @node User Information @section User Information The facilities in this section provide an interface to the user and group database. They should be used with care since they are not reentrant. The following functions accept an object representing user information and return a selected component: @table @code @item passwd:name The name of the userid. @item passwd:passwd The encrypted passwd. @item passwd:uid The user id number. @item passwd:gid The group id number. @item passwd:gecos The full name. @item passwd:dir The home directory. @item passwd:shell The login shell. @end table @deffn procedure getpwuid uid Look up an integer userid in the user database. @end deffn @deffn procedure getpwnam name Look up a user name string in the user database. @end deffn @deffn procedure setpwent Initializes a stream used by @code{getpwent} to read from the user database. The next use of @code{getpwent} will return the first entry. The return value is unspecified. @end deffn @deffn procedure getpwent Return the next entry in the user database, using the stream set by @code{setpwent}. @end deffn @deffn procedure endpwent Closes the stream used by @code{getpwent}. The return value is unspecified. @end deffn @deffn primitive setpw [arg] If called with a true argument, initialize or reset the password data stream. Otherwise, close the stream. The @code{setpwent} and @code{endpwent} procedures are implemented on top of this. @end deffn @deffn primitive getpw [user] Look up an entry in the user database. @var{obj} can be an integer, a string, or omitted, giving the behaviour of getpwuid, getpwnam or getpwent respectively. @end deffn The following functions accept an object representing group information and return a selected component: @table @code @item group:name The group name. @item group:passwd The encrypted group password. @item group:gid The group id number. @item group:mem A list of userids which have this group as a supplimentary group. @end table @deffn procedure getgrgid gid Look up an integer groupid in the group database. @end deffn @deffn procedure getgrnam name Look up a group name in the group database. @end deffn @deffn procedure setgrent Initializes a stream used by @code{getgrent} to read from the group database. The next use of @code{getgrent} will return the first entry. The return value is unspecified. @end deffn @deffn procedure getgrent Return the next entry in the group database, using the stream set by @code{setgrent}. @end deffn @deffn procedure endgrent Closes the stream used by @code{getgrent}. The return value is unspecified. @end deffn @deffn primitive setgr [arg] If called with a true argument, initialize or reset the group data stream. Otherwise, close the stream. The @code{setgrent} and @code{endgrent} procedures are implemented on top of this. @end deffn @deffn primitive getgr [name] Look up an entry in the group database. @var{obj} can be an integer, a string, or omitted, giving the behaviour of getgrgid, getgrnam or getgrent respectively. @end deffn In addition to the accessor procedures for the user database, the following shortcut procedures are also available. @deffn primitive cuserid Return a string containing a user name associated with the effective user id of the process. Return @code{#f} if this information cannot be obtained. @end deffn @deffn primitive getlogin Return a string containing the name of the user logged in on the controlling terminal of the process, or @code{#f} if this information cannot be obtained. @end deffn @node Time @section Time @deffn primitive current-time Return the number of seconds since 1970-01-01 00:00:00 UTC, excluding leap seconds. @end deffn @deffn primitive gettimeofday Return a pair containing the number of seconds and microseconds since 1970-01-01 00:00:00 UTC, excluding leap seconds. Note: whether true microsecond resolution is available depends on the operating system. @end deffn The following procedures either accept an object representing a broken down time and return a selected component, or accept an object representing a broken down time and a value and set the component to the value. The numbers in parentheses give the usual range. @table @code @item tm:sec, set-tm:sec Seconds (0-59). @item tm:min, set-tm:min Minutes (0-59). @item tm:hour, set-tm:hour Hours (0-23). @item tm:mday, set-tm:mday Day of the month (1-31). @item tm:mon, set-tm:mon Month (0-11). @item tm:year, set-tm:year Year (70-), the year minus 1900. @item tm:wday, set-tm:wday Day of the week (0-6) with Sunday represented as 0. @item tm:yday, set-tm:yday Day of the year (0-364, 365 in leap years). @item tm:isdst, set-tm:isdst Daylight saving indicator (0 for "no", greater than 0 for "yes", less than 0 for "unknown"). @item tm:gmtoff, set-tm:gmtoff Time zone offset in seconds west of UTC (-46800 to 43200). @item tm:zone, set-tm:zone Time zone label (a string), not necessarily unique. @end table @deffn primitive localtime time [zone] Return an object representing the broken down components of @var{time}, an integer like the one returned by @code{current-time}. The time zone for the calculation is optionally specified by @var{zone} (a string), otherwise the @code{TZ} environment variable or the system default is used. @end deffn @deffn primitive gmtime time Return an object representing the broken down components of @var{time}, an integer like the one returned by @code{current-time}. The values are calculated for UTC. @end deffn @deffn primitive mktime sbd_time [zone] @var{bd-time} is an object representing broken down time and @code{zone} is an optional time zone specifier (otherwise the TZ environment variable or the system default is used). Returns a pair: the car is a corresponding integer time value like that returned by @code{current-time}; the cdr is a broken down time object, similar to as @var{bd-time} but with normalized values. @end deffn @deffn primitive tzset Initialize the timezone from the TZ environment variable or the system default. It's not usually necessary to call this procedure since it's done automatically by other procedures that depend on the timezone. @end deffn @deffn primitive strftime format stime Formats a time specification @var{time} using @var{template}. @var{time} is an object with time components in the form returned by @code{localtime} or @code{gmtime}. @var{template} is a string which can include formatting specifications introduced by a @code{%} character. The formatting of month and day names is dependent on the current locale. The value returned is the formatted string. @xref{Formatting Date and Time, , , libc, The GNU C Library Reference Manual}.) @end deffn @deffn primitive strptime format string Performs the reverse action to @code{strftime}, parsing @var{string} according to the specification supplied in @var{template}. The interpretation of month and day names is dependent on the current locale. The value returned is a pair. The car has an object with time components in the form returned by @code{localtime} or @code{gmtime}, but the time zone components are not usefully set. The cdr reports the number of characters from @var{string} which were used for the conversion. @end deffn @defvar internal-time-units-per-second The value of this variable is the number of time units per second reported by the following procedures. @end defvar @deffn primitive times Return an object with information about real and processor time. The following procedures accept such an object as an argument and return a selected component: @table @code @item tms:clock The current real time, expressed as time units relative to an arbitrary base. @item tms:utime The CPU time units used by the calling process. @item tms:stime The CPU time units used by the system on behalf of the calling process. @item tms:cutime The CPU time units used by terminated child processes of the calling process, whose status has been collected (e.g., using @code{waitpid}). @item tms:cstime Similarly, the CPU times units used by the system on behalf of terminated child processes. @end table @end deffn @deffn primitive get-internal-real-time Return the number of time units since the interpreter was started. @end deffn @deffn primitive get-internal-run-time Return the number of time units of processor time used by the interpreter. Both @emph{system} and @emph{user} time are included but subprocesses are not. @end deffn @node Runtime Environment @section Runtime Environment @deffn primitive program-arguments @deffnx procedure command-line Return the list of command line arguments passed to Guile, as a list of strings. The list includes the invoked program name, which is usually @code{"guile"}, but excludes switches and parameters for command line options like @code{-e} and @code{-l}. @end deffn @deffn primitive getenv nam Looks up the string @var{name} in the current environment. The return value is @code{#f} unless a string of the form @code{NAME=VALUE} is found, in which case the string @code{VALUE} is returned. @end deffn @c begin (scm-doc-string "boot-9.scm" "setenv") @deffn procedure setenv name value Modifies the environment of the current process, which is also the default environment inherited by child processes. If @var{value} is @code{#f}, then @var{name} is removed from the environment. Otherwise, the string @var{name}=@var{value} is added to the environment, replacing any existing string with name matching @var{name}. The return value is unspecified. @end deffn @deffn primitive environ [env] If @var{env} is omitted, return the current environment (in the Unix sense) as a list of strings. Otherwise set the current environment, which is also the default environment for child processes, to the supplied list of strings. Each member of @var{env} should be of the form @code{NAME=VALUE} and values of @code{NAME} should not be duplicated. If @var{env} is supplied then the return value is unspecified. @end deffn @deffn primitive putenv str Modifies the environment of the current process, which is also the default environment inherited by child processes. If @var{string} is of the form @code{NAME=VALUE} then it will be written directly into the environment, replacing any existing environment string with name matching @code{NAME}. If @var{string} does not contain an equal sign, then any existing string with name matching @var{string} will be removed. The return value is unspecified. @end deffn @node Processes @section Processes @findex cd @deffn primitive chdir str Change the current working directory to @var{path}. The return value is unspecified. @end deffn @findex pwd @deffn primitive getcwd Return the name of the current working directory. @end deffn @deffn primitive umask [mode] If @var{mode} is omitted, retuns a decimal number representing the current file creation mask. Otherwise the file creation mask is set to @var{mode} and the previous value is returned. E.g., @code{(umask #o022)} sets the mask to octal 22, decimal 18. @end deffn @deffn primitive chroot path Change the root directory to that specified in @var{path}. This directory will be used for path names beginning with @file{/}. The root directory is inherited by all children of the current process. Only the superuser may change the root directory. @end deffn @deffn primitive getpid Return an integer representing the current process ID. @end deffn @deffn primitive getgroups Return a vector of integers representing the current supplimentary group IDs. @end deffn @deffn primitive getppid Return an integer representing the process ID of the parent process. @end deffn @deffn primitive getuid Return an integer representing the current real user ID. @end deffn @deffn primitive getgid Return an integer representing the current real group ID. @end deffn @deffn primitive geteuid Return an integer representing the current effective user ID. If the system does not support effective IDs, then the real ID is returned. @code{(feature? 'EIDs)} reports whether the system supports effective IDs. @end deffn @deffn primitive getegid Return an integer representing the current effective group ID. If the system does not support effective IDs, then the real ID is returned. @code{(feature? 'EIDs)} reports whether the system supports effective IDs. @end deffn @deffn primitive setuid id Sets both the real and effective user IDs to the integer @var{id}, provided the process has appropriate privileges. The return value is unspecified. @end deffn @deffn primitive setgid id Sets both the real and effective group IDs to the integer @var{id}, provided the process has appropriate privileges. The return value is unspecified. @end deffn @deffn primitive seteuid id Sets the effective user ID to the integer @var{id}, provided the process has appropriate privileges. If effective IDs are not supported, the real ID is set instead -- @code{(feature? 'EIDs)} reports whether the system supports effective IDs. The return value is unspecified. @end deffn @deffn primitive setegid id Sets the effective group ID to the integer @var{id}, provided the process has appropriate privileges. If effective IDs are not supported, the real ID is set instead -- @code{(feature? 'EIDs)} reports whether the system supports effective IDs. The return value is unspecified. @end deffn @deffn primitive getpgrp Return an integer representing the current process group ID. This is the POSIX definition, not BSD. @end deffn @deffn primitive setpgid pid pgid Move the process @var{pid} into the process group @var{pgid}. @var{pid} or @var{pgid} must be integers: they can be zero to indicate the ID of the current process. Fails on systems that do not support job control. The return value is unspecified. @end deffn @deffn primitive setsid Creates a new session. The current process becomes the session leader and is put in a new process group. The process will be detached from its controlling terminal if it has one. The return value is an integer representing the new process group ID. @end deffn @deffn primitive waitpid pid [options] This procedure collects status information from a child process which has terminated or (optionally) stopped. Normally it will suspend the calling process until this can be done. If more than one child process is eligible then one will be chosen by the operating system. The value of @var{pid} determines the behaviour: @table @r @item @var{pid} greater than 0 Request status information from the specified child process. @item @var{pid} equal to -1 or WAIT_ANY Request status information for any child process. @item @var{pid} equal to 0 or WAIT_MYPGRP Request status information for any child process in the current process group. @item @var{pid} less than -1 Request status information for any child process whose process group ID is -@var{PID}. @end table The @var{options} argument, if supplied, should be the bitwise OR of the values of zero or more of the following variables: @defvar WNOHANG Return immediately even if there are no child processes to be collected. @end defvar @defvar WUNTRACED Report status information for stopped processes as well as terminated processes. @end defvar The return value is a pair containing: @enumerate @item The process ID of the child process, or 0 if @code{WNOHANG} was specified and no process was collected. @item The integer status value. @end enumerate @end deffn The following three functions can be used to decode the process status code returned by @code{waitpid}. @deffn primitive status:exit-val status Return the exit status value, as would be set if a process ended normally through a call to @code{exit} or @code{_exit}, if any, otherwise @code{#f}. @end deffn @deffn primitive status:term-sig status Return the signal number which terminated the process, if any, otherwise @code{#f}. @end deffn @deffn primitive status:stop-sig status Return the signal number which stopped the process, if any, otherwise @code{#f}. @end deffn @deffn primitive system [cmd] Execute @var{cmd} using the operating system's "command processor". Under Unix this is usually the default shell @code{sh}. The value returned is @var{cmd}'s exit status as returned by @code{waitpid}, which can be interpreted using the functions above. If @code{system} is called without arguments, return a boolean indicating whether the command processor is available. @end deffn @deffn primitive primitive-exit [status] Terminate the current process without unwinding the Scheme stack. This is would typically be useful after a fork. The exit status is @var{status} if supplied, otherwise zero. @end deffn @deffn primitive execl filename . args Executes the file named by @var{path} as a new process image. The remaining arguments are supplied to the process; from a C program they are accessable as the @code{argv} argument to @code{main}. Conventionally the first @var{arg} is the same as @var{path}. All arguments must be strings. If @var{arg} is missing, @var{path} is executed with a null argument list, which may have system-dependent side-effects. This procedure is currently implemented using the @code{execv} system call, but we call it @code{execl} because of its Scheme calling interface. @end deffn @deffn primitive execlp filename . args Similar to @code{execl}, however if @var{filename} does not contain a slash then the file to execute will be located by searching the directories listed in the @code{PATH} environment variable. This procedure is currently implemented using the @code{execvp} system call, but we call it @code{execlp} because of its Scheme calling interface. @end deffn @deffn primitive execle filename env . args Similar to @code{execl}, but the environment of the new process is specified by @var{env}, which must be a list of strings as returned by the @code{environ} procedure. This procedure is currently implemented using the @code{execve} system call, but we call it @code{execle} because of its Scheme calling interface. @end deffn @deffn primitive primitive-fork Creates a new "child" process by duplicating the current "parent" process. In the child the return value is 0. In the parent the return value is the integer process ID of the child. This procedure has been renamed from @code{fork} to avoid a naming conflict with the scsh fork. @end deffn @deffn primitive nice incr Increment the priority of the current process by @var{incr}. A higher priority value means that the process runs less often. The return value is unspecified. @end deffn @deffn primitive setpriority which who prio Set the scheduling priority of the process, process group or user, as indicated by @var{which} and @var{who}. @var{which} is one of the variables @code{PRIO_PROCESS}, @code{PRIO_PGRP} or @code{PRIO_USER}, and @var{who} is interpreted relative to @var{which} (a process identifier for @code{PRIO_PROCESS}, process group identifier for @code{PRIO_PGRP}, and a user identifier for @code{PRIO_USER}. A zero value of @var{who} denotes the current process, process group, or user. @var{prio} is a value in the range -20 and 20, the default priority is 0; lower priorities cause more favorable scheduling. Sets the priority of all of the specified processes. Only the super-user may lower priorities. The return value is not specified. @end deffn @deffn primitive getpriority which who Return the scheduling priority of the process, process group or user, as indicated by @var{which} and @var{who}. @var{which} is one of the variables @code{PRIO_PROCESS}, @code{PRIO_PGRP} or @code{PRIO_USER}, and @var{who} is interpreted relative to @var{which} (a process identifier for @code{PRIO_PROCESS}, process group identifier for @code{PRIO_PGRP}, and a user identifier for @code{PRIO_USER}. A zero value of @var{who} denotes the current process, process group, or user. Return the highest priority (lowest numerical value) of any of the specified processes. @end deffn @node Signals @section Signals Procedures to raise, handle and wait for signals. @deffn primitive kill pid sig Sends a signal to the specified process or group of processes. @var{pid} specifies the processes to which the signal is sent: @table @r @item @var{pid} greater than 0 The process whose identifier is @var{pid}. @item @var{pid} equal to 0 All processes in the current process group. @item @var{pid} less than -1 The process group whose identifier is -@var{pid} @item @var{pid} equal to -1 If the process is privileged, all processes except for some special system processes. Otherwise, all processes with the current effective user ID. @end table @var{sig} should be specified using a variable corresponding to the Unix symbolic name, e.g., @defvar SIGHUP Hang-up signal. @end defvar @defvar SIGINT Interrupt signal. @end defvar @end deffn @deffn primitive raise sig Sends a specified signal @var{sig} to the current process, where @var{sig} is as described for the kill procedure. @end deffn @deffn primitive sigaction signum [handler [flags]] Install or report the signal handler for a specified signal. @var{signum} is the signal number, which can be specified using the value of variables such as @code{SIGINT}. If @var{action} is omitted, @code{sigaction} returns a pair: the CAR is the current signal hander, which will be either an integer with the value @code{SIG_DFL} (default action) or @code{SIG_IGN} (ignore), or the Scheme procedure which handles the signal, or @code{#f} if a non-Scheme procedure handles the signal. The CDR contains the current @code{sigaction} flags for the handler. If @var{action} is provided, it is installed as the new handler for @var{signum}. @var{action} can be a Scheme procedure taking one argument, or the value of @code{SIG_DFL} (default action) or @code{SIG_IGN} (ignore), or @code{#f} to restore whatever signal handler was installed before @code{sigaction} was first used. Flags can optionally be specified for the new handler (@code{SA_RESTART} will always be added if it's available and the system is using restartable system calls.) The return value is a pair with information about the old handler as described above. This interface does not provide access to the "signal blocking" facility. Maybe this is not needed, since the thread support may provide solutions to the problem of consistent access to data structures. @end deffn @deffn primitive restore-signals Return all signal handlers to the values they had before any call to @code{sigaction} was made. The return value is unspecified. @end deffn @deffn primitive alarm i Set a timer to raise a @code{SIGALRM} signal after the specified number of seconds (an integer). It's advisable to install a signal handler for @code{SIGALRM} beforehand, since the default action is to terminate the process. The return value indicates the time remaining for the previous alarm, if any. The new value replaces the previous alarm. If there was no previous alarm, the return value is zero. @end deffn @deffn primitive pause Pause the current process (thread?) until a signal arrives whose action is to either terminate the current process or invoke a handler procedure. The return value is unspecified. @end deffn @deffn primitive sleep i Wait for the given number of seconds (an integer) or until a signal arrives. The return value is zero if the time elapses or the number of seconds remaining otherwise. @end deffn @deffn primitive usleep i Sleep for I microseconds. @code{usleep} is not available on all platforms. @end deffn @deffn primitive setitimer which_timer interval_seconds interval_microseconds value_seconds value_microseconds Set the timer specified by @var{which_timer} according to the given @var{interval_seconds}, @var{interval_microseconds}, @var{value_seconds}, and @var{value_microseconds} values, and return information about the timer's previous setting. The timers available are: @code{ITIMER_REAL}, @code{ITIMER_VIRTUAL}, and @code{ITIMER_PROF}, and the return value will be a list of two cons pairs representing the current state of the given timer. The first pair is the seconds and microseconds of the timer @code{it_interval}, and the second pair is the seconds and microseconds of the timer @code{it_value}. @end deffn @deffn primitive getitimer which_timer Return information about the timer specified by @var{which_timer}. The timers available are: @code{ITIMER_REAL}, @code{ITIMER_VIRTUAL}, and @code{ITIMER_PROF}, and the return value will be a list of two cons pairs representing the current state of the given timer. The first pair is the seconds and microseconds of the timer @code{it_interval}, and the second pair is the seconds and microseconds of the timer @code{it_value}. @end deffn @node Terminals and Ptys @section Terminals and Ptys @deffn primitive isatty? port Return @code{#t} if @var{port} is using a serial non--file device, otherwise @code{#f}. @end deffn @deffn primitive ttyname port Return a string with the name of the serial terminal device underlying @var{port}. @end deffn @deffn primitive ctermid Return a string containing the file name of the controlling terminal for the current process. @end deffn @deffn primitive tcgetpgrp port Return the process group ID of the foreground process group associated with the terminal open on the file descriptor underlying @var{port}. If there is no foreground process group, the return value is a number greater than 1 that does not match the process group ID of any existing process group. This can happen if all of the processes in the job that was formerly the foreground job have terminated, and no other job has yet been moved into the foreground. @end deffn @deffn primitive tcsetpgrp port pgid Set the foreground process group ID for the terminal used by the file descriptor underlying @var{port} to the integer @var{pgid}. The calling process must be a member of the same session as @var{pgid} and must have the same controlling terminal. The return value is unspecified. @end deffn @node Pipes @section Pipes The following procedures provide an interface to the @code{popen} and @code{pclose} system routines. The code is in a separate "popen" module: @smalllisp (use-modules (ice-9 popen)) @end smalllisp @findex popen @deffn procedure open-pipe command modes Executes the shell command @var{command} (a string) in a subprocess. A pipe to the process is created and returned. @var{modes} specifies whether an input or output pipe to the process is created: it should be the value of @code{OPEN_READ} or @code{OPEN_WRITE}. @end deffn @deffn procedure open-input-pipe command Equivalent to @code{open-pipe} with mode @code{OPEN_READ}. @end deffn @deffn procedure open-output-pipe command Equivalent to @code{open-pipe} with mode @code{OPEN_WRITE}. @end deffn @findex pclose @deffn procedure close-pipe port Closes the pipe created by @code{open-pipe}, then waits for the process to terminate and returns its status value, @xref{Processes, waitpid}, for information on how to interpret this value. @code{close-port} (@pxref{Closing, close-port}) can also be used to close a pipe, but doesn't return the status. @end deffn @node Networking @section Networking @menu * Network Address Conversion:: * Network Databases:: * Network Sockets and Communication:: @end menu @node Network Address Conversion @subsection Network Address Conversion This section describes procedures which convert internet addresses between numeric and string formats. @subsubsection IPv4 Address Conversion @deffn primitive inet-aton address Convert an IPv4 Internet address from printable string (dotted decimal notation) to an integer. E.g., @lisp (inet-aton "127.0.0.1") @result{} 2130706433 @end lisp @end deffn @deffn primitive inet-ntoa inetid Convert an IPv4 Internet address to a printable (dotted decimal notation) string. E.g., @lisp (inet-ntoa 2130706433) @result{} "127.0.0.1" @end lisp @end deffn @deffn primitive inet-netof address Return the network number part of the given IPv4 Internet address. E.g., @lisp (inet-netof 2130706433) @result{} 127 @end lisp @end deffn @deffn primitive inet-lnaof address Return the local-address-with-network part of the given IPv4 Internet address, using the obsolete class A/B/C system. E.g., @lisp (inet-lnaof 2130706433) @result{} 1 @end lisp @end deffn @deffn primitive inet-makeaddr net lna Make an IPv4 Internet address by combining the network number @var{net} with the local-address-within-network number @var{lna}. E.g., @lisp (inet-makeaddr 127 1) @result{} 2130706433 @end lisp @end deffn @subsubsection IPv6 Address Conversion @deffn primitive inet-ntop family address Convert a network address into a printable string. Note that unlike the C version of this function, the input is an integer with normal host byte ordering. @var{family} can be @code{AF_INET} or @code{AF_INET6}. E.g., @lisp (inet-ntop AF_INET 2130706433) @result{} "127.0.0.1" (inet-ntop AF_INET6 (- (expt 2 128) 1)) @result{} ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff @end lisp @end deffn @deffn primitive inet-pton family address Convert a string containing a printable network address to an integer address. Note that unlike the C version of this function, the result is an integer with normal host byte ordering. @var{family} can be @code{AF_INET} or @code{AF_INET6}. E.g., @lisp (inet-pton AF_INET "127.0.0.1") @result{} 2130706433 (inet-pton AF_INET6 "::1") @result{} 1 @end lisp @end deffn @node Network Databases @subsection Network Databases This section describes procedures which query various network databases. Care should be taken when using the database routines since they are not reentrant. @subsubsection The Host Database A @dfn{host object} is a structure that represents what is known about a network host, and is the usual way of representing a system's network identity inside software. The following functions accept a host object and return a selected component: @deffn procedure hostent:name host The "official" hostname for @var{host}. @end deffn @deffn procedure hostent:aliases host A list of aliases for @var{host}. @end deffn @deffn procedure hostent:addrtype host The host address type. For hosts with Internet addresses, this will return @code{AF_INET}. @end deffn @deffn procedure hostent:length host The length of each address for @var{host}, in bytes. @end deffn @deffn procedure hostent:addr-list host The list of network addresses associated with @var{host}. @end deffn The following procedures are used to search the host database: @deffn primitive gethost [host] @deffnx procedure gethostbyname hostname @deffnx procedure gethostbyaddr address Look up a host by name or address, returning a host object. The @code{gethost} procedure will accept either a string name or an integer address; if given no arguments, it behaves like @code{gethostent} (see below). If a name or address is supplied but the address can not be found, an error will be thrown to one of the keys: @code{host-not-found}, @code{try-again}, @code{no-recovery} or @code{no-data}, corresponding to the equivalent @code{h_error} values. Unusual conditions may result in errors thrown to the @code{system-error} or @code{misc_error} keys. @end deffn The following procedures may be used to step through the host database from beginning to end. @deffn procedure sethostent [stayopen] Initialize an internal stream from which host objects may be read. This procedure must be called before any calls to @code{gethostent}, and may also be called afterward to reset the host entry stream. If @var{stayopen} is supplied and is not @code{#f}, the database is not closed by subsequent @code{gethostbyname} or @code{gethostbyaddr} calls, possibly giving an efficiency gain. @end deffn @deffn procedure gethostent Return the next host object from the host database, or @code{#f} if there are no more hosts to be found (or an error has been encountered). This procedure may not be used before @code{sethostent} has been called. @end deffn @deffn procedure endhostent Close the stream used by @code{gethostent}. The return value is unspecified. @end deffn @deffn primitive sethost [stayopen] If @var{stayopen} is omitted, this is equivalent to @code{endhostent}. Otherwise it is equivalent to @code{sethostent stayopen}. @end deffn @subsubsection The Network Database The following functions accept an object representing a network and return a selected component: @deffn procedure netent:name net The "official" network name. @end deffn @deffn procedure netent:aliases net A list of aliases for the network. @end deffn @deffn procedure netent:addrtype net The type of the network number. Currently, this returns only @code{AF_INET}. @end deffn @deffn procedure netent:net net The network number. @end deffn The following procedures are used to search the network database: @deffn primitive getnet [net] @deffnx procedure getnetbyname net-name @deffnx procedure getnetbyaddr net-number Look up a network by name or net number in the network database. The @var{net-name} argument must be a string, and the @var{net-number} argument must be an integer. @code{getnet} will accept either type of argument, behaving like @code{getnetent} (see below) if no arguments are given. @end deffn The following procedures may be used to step through the network database from beginning to end. @deffn procedure setnetent [stayopen] Initialize an internal stream from which network objects may be read. This procedure must be called before any calls to @code{getnetent}, and may also be called afterward to reset the net entry stream. If @var{stayopen} is supplied and is not @code{#f}, the database is not closed by subsequent @code{getnetbyname} or @code{getnetbyaddr} calls, possibly giving an efficiency gain. @end deffn @deffn procedure getnetent Return the next entry from the network database. @end deffn @deffn procedure endnetent Close the stream used by @code{getnetent}. The return value is unspecified. @end deffn @deffn primitive setnet [stayopen] If @var{stayopen} is omitted, this is equivalent to @code{endnetent}. Otherwise it is equivalent to @code{setnetent stayopen}. @end deffn @subsubsection The Protocol Database The following functions accept an object representing a protocol and return a selected component: @deffn procedure protoent:name protocol The "official" protocol name. @end deffn @deffn procedure protoent:aliases protocol A list of aliases for the protocol. @end deffn @deffn procedure protoent:proto protocol The protocol number. @end deffn The following procedures are used to search the protocol database: @deffn primitive getproto [protocol] @deffnx procedure getprotobyname name @deffnx procedure getprotobynumber number Look up a network protocol by name or by number. @code{getprotobyname} takes a string argument, and @code{getprotobynumber} takes an integer argument. @code{getproto} will accept either type, behaving like @code{getprotoent} (see below) if no arguments are supplied. @end deffn The following procedures may be used to step through the protocol database from beginning to end. @deffn procedure setprotoent [stayopen] Initialize an internal stream from which protocol objects may be read. This procedure must be called before any calls to @code{getprotoent}, and may also be called afterward to reset the protocol entry stream. If @var{stayopen} is supplied and is not @code{#f}, the database is not closed by subsequent @code{getprotobyname} or @code{getprotobynumber} calls, possibly giving an efficiency gain. @end deffn @deffn procedure getprotoent Return the next entry from the protocol database. @end deffn @deffn procedure endprotoent Close the stream used by @code{getprotoent}. The return value is unspecified. @end deffn @deffn primitive setproto [stayopen] If @var{stayopen} is omitted, this is equivalent to @code{endprotoent}. Otherwise it is equivalent to @code{setprotoent stayopen}. @end deffn @subsubsection The Service Database The following functions accept an object representing a service and return a selected component: @deffn procedure servent:name serv The "official" name of the network service. @end deffn @deffn procedure servent:aliases serv A list of aliases for the network service. @end deffn @deffn procedure servent:port serv The Internet port used by the service. @end deffn @deffn procedure servent:proto serv The protocol used by the service. A service may be listed many times in the database under different protocol names. @end deffn The following procedures are used to search the service database: @deffn primitive getserv [name [protocol]] @deffnx procedure getservbyname name protocol @deffnx procedure getservbyport port protocol Look up a network service by name or by service number, and return a network service object. The @var{protocol} argument specifies the name of the desired protocol; if the protocol found in the network service database does not match this name, a system error is signalled. The @code{getserv} procedure will take either a service name or number as its first argument; if given no arguments, it behaves like @code{getservent} (see below). @end deffn The following procedures may be used to step through the service database from beginning to end. @deffn procedure setservent [stayopen] Initialize an internal stream from which service objects may be read. This procedure must be called before any calls to @code{getservent}, and may also be called afterward to reset the service entry stream. If @var{stayopen} is supplied and is not @code{#f}, the database is not closed by subsequent @code{getservbyname} or @code{getservbyport} calls, possibly giving an efficiency gain. @end deffn @deffn procedure getservent Return the next entry from the services database. @end deffn @deffn procedure endservent Close the stream used by @code{getservent}. The return value is unspecified. @end deffn @deffn primitive setserv [stayopen] If @var{stayopen} is omitted, this is equivalent to @code{endservent}. Otherwise it is equivalent to @code{setservent stayopen}. @end deffn @node Network Sockets and Communication @subsection Network Sockets and Communication Socket ports can be created using @code{socket} and @code{socketpair}. The ports are initially unbuffered, to make reading and writing to the same port more reliable. A buffer can be added to the port using @code{setvbuf}, @xref{Ports and File Descriptors}. The convention used for "host" vs "network" addresses is that addresses are always held in host order at the Scheme level. The procedures in this section automatically convert between host and network order when required. The arguments and return values are thus in host order. @deffn primitive socket family style proto Return a new socket port of the type specified by @var{family}, @var{style} and @var{proto}. All three parameters are integers. Supported values for @var{family} are @code{AF_UNIX}, @code{AF_INET} and @code{AF_INET6}. Typical values for @var{style} are @code{SOCK_STREAM}, @code{SOCK_DGRAM} and @code{SOCK_RAW}. @var{proto} can be obtained from a protocol name using @code{getprotobyname}. A value of zero specifies the default protocol, which is usually right. A single socket port cannot by used for communication until it has been connected to another socket. @end deffn @deffn primitive socketpair family style proto Return a pair of connected (but unnamed) socket ports of the type specified by @var{family}, @var{style} and @var{proto}. Many systems support only socket pairs of the @code{AF_UNIX} family. Zero is likely to be the only meaningful value for @var{proto}. @end deffn @deffn primitive getsockopt sock level optname Return the value of a particular socket option for the socket port @var{sock}. @var{level} is an integer code for type of option being requested, e.g., @code{SOL_SOCKET} for socket-level options. @var{optname} is an integer code for the option required and should be specified using one of the symbols @code{SO_DEBUG}, @code{SO_REUSEADDR} etc. The returned value is typically an integer but @code{SO_LINGER} returns a pair of integers. @end deffn @deffn primitive setsockopt sock level optname value Set the value of a particular socket option for the socket port @var{sock}. @var{level} is an integer code for type of option being set, e.g., @code{SOL_SOCKET} for socket-level options. @var{optname} is an integer code for the option to set and should be specified using one of the symbols @code{SO_DEBUG}, @code{SO_REUSEADDR} etc. @var{value} is the value to which the option should be set. For most options this must be an integer, but for @code{SO_LINGER} it must be a pair. The return value is unspecified. @end deffn @deffn primitive shutdown sock how Sockets can be closed simply by using @code{close-port}. The @code{shutdown} procedure allows reception or tranmission on a connection to be shut down individually, according to the parameter @var{how}: @table @asis @item 0 Stop receiving data for this socket. If further data arrives, reject it. @item 1 Stop trying to transmit data from this socket. Discard any data waiting to be sent. Stop looking for acknowledgement of data already sent; don't retransmit it if it is lost. @item 2 Stop both reception and transmission. @end table The return value is unspecified. @end deffn @deffn primitive connect sock fam address . args Initiate a connection from a socket using a specified address family to the address specified by @var{address} and possibly @var{args}. The format required for @var{address} and @var{args} depends on the family of the socket. For a socket of family @code{AF_UNIX}, only @var{address} is specified and must be a string with the filename where the socket is to be created. For a socket of family @code{AF_INET}, @var{address} must be an integer IPv4 host address and @var{args} must be a single integer port number. For a socket of family @code{AF_INET6}, @var{address} must be an integer IPv6 host address and @var{args} may be up to three integers: port [flowinfo] [scope_id], where flowinfo and scope_id default to zero. The return value is unspecified. @end deffn @deffn primitive bind sock fam address . args Assign an address to the socket port @var{sock}. Generally this only needs to be done for server sockets, so they know where to look for incoming connections. A socket without an address will be assigned one automatically when it starts communicating. The format of @var{address} and @var{args} depends on the family of the socket. For a socket of family @code{AF_UNIX}, only @var{address} is specified and must be a string with the filename where the socket is to be created. For a socket of family @code{AF_INET}, @var{address} must be an integer IPv4 address and @var{args} must be a single integer port number. The values of the following variables can also be used for @var{address}: @defvar INADDR_ANY Allow connections from any address. @end defvar @defvar INADDR_LOOPBACK The address of the local host using the loopback device. @end defvar @defvar INADDR_BROADCAST The broadcast address on the local network. @end defvar @defvar INADDR_NONE No address. @end defvar For a socket of family @code{AF_INET6}, @var{address} must be an integer IPv6 address and @var{args} may be up to three integers: port [flowinfo] [scope_id], where flowinfo and scope_id default to zero. The return value is unspecified. @end deffn @deffn primitive listen sock backlog Enable @var{sock} to accept connection requests. @var{backlog} is an integer specifying the maximum length of the queue for pending connections. If the queue fills, new clients will fail to connect until the server calls @code{accept} to accept a connection from the queue. The return value is unspecified. @end deffn @deffn primitive accept sock Accept a connection on a bound, listening socket. If there are no pending connections in the queue, wait until one is available unless the non-blocking option has been set on the socket. The return value is a pair in which the @emph{car} is a new socket port for the connection and the @emph{cdr} is an object with address information about the client which initiated the connection. @var{sock} does not become part of the connection and will continue to accept new requests. @end deffn The following functions take a socket address object, as returned by @code{accept} and other procedures, and return a selected component. @table @code @item sockaddr:fam The socket family, typically equal to the value of @code{AF_UNIX} or @code{AF_INET}. @item sockaddr:path If the socket family is @code{AF_UNIX}, returns the path of the filename the socket is based on. @item sockaddr:addr If the socket family is @code{AF_INET}, returns the Internet host address. @item sockaddr:port If the socket family is @code{AF_INET}, returns the Internet port number. @end table @deffn primitive getsockname sock Return the address of @var{sock}, in the same form as the object returned by @code{accept}. On many systems the address of a socket in the @code{AF_FILE} namespace cannot be read. @end deffn @deffn primitive getpeername sock Return the address that @var{sock} is connected to, in the same form as the object returned by @code{accept}. On many systems the address of a socket in the @code{AF_FILE} namespace cannot be read. @end deffn @deffn primitive recv! sock buf [flags] Receive data from a socket port. @var{sock} must already be bound to the address from which data is to be received. @var{buf} is a string into which the data will be written. The size of @var{buf} limits the amount of data which can be received: in the case of packet protocols, if a packet larger than this limit is encountered then some data will be irrevocably lost. The optional @var{flags} argument is a value or bitwise OR of MSG_OOB, MSG_PEEK, MSG_DONTROUTE etc. The value returned is the number of bytes read from the socket. Note that the data is read directly from the socket file descriptor: any unread buffered port data is ignored. @end deffn @deffn primitive send sock message [flags] Transmit the string @var{message} on a socket port @var{sock}. @var{sock} must already be bound to a destination address. The value returned is the number of bytes transmitted -- it's possible for this to be less than the length of @var{message} if the socket is set to be non-blocking. The optional @var{flags} argument is a value or bitwise OR of MSG_OOB, MSG_PEEK, MSG_DONTROUTE etc. Note that the data is written directly to the socket file descriptor: any unflushed buffered port data is ignored. @end deffn @deffn primitive recvfrom! sock str [flags [start [end]]] Return data from the socket port @var{sock} and also information about where the data was received from. @var{sock} must already be bound to the address from which data is to be received. @code{str}, is a string into which the data will be written. The size of @var{str} limits the amount of data which can be received: in the case of packet protocols, if a packet larger than this limit is encountered then some data will be irrevocably lost. The optional @var{flags} argument is a value or bitwise OR of @code{MSG_OOB}, @code{MSG_PEEK}, @code{MSG_DONTROUTE} etc. The value returned is a pair: the @emph{car} is the number of bytes read from the socket and the @emph{cdr} an address object in the same form as returned by @code{accept}. The address will given as @code{#f} if not available, as is usually the case for stream sockets. The @var{start} and @var{end} arguments specify a substring of @var{str} to which the data should be written. Note that the data is read directly from the socket file descriptor: any unread buffered port data is ignored. @end deffn @deffn primitive sendto sock message fam address . args_and_flags Transmit the string @var{message} on the socket port @var{sock}. The destination address is specified using the @var{fam}, @var{address} and @var{args_and_flags} arguments, in a similar way to the @code{connect} procedure. @var{args_and_flags} contains the usual connection arguments optionally followed by a flags argument, which is a value or bitwise OR of MSG_OOB, MSG_PEEK, MSG_DONTROUTE etc. The value returned is the number of bytes transmitted -- it's possible for this to be less than the length of @var{message} if the socket is set to be non-blocking. Note that the data is written directly to the socket file descriptor: any unflushed buffered port data is ignored. @end deffn The following functions can be used to convert short and long integers between "host" and "network" order. Although the procedures above do this automatically for addresses, the conversion will still need to be done when sending or receiving encoded integer data from the network. @deffn primitive htons value Convert a 16 bit quantity from host to network byte ordering. @var{value} is packed into 2 bytes, which are then converted and returned as a new integer. @end deffn @deffn primitive ntohs value Convert a 16 bit quantity from network to host byte ordering. @var{value} is packed into 2 bytes, which are then converted and returned as a new integer. @end deffn @deffn primitive htonl value Convert a 32 bit quantity from host to network byte ordering. @var{value} is packed into 4 bytes, which are then converted and returned as a new integer. @end deffn @deffn primitive ntohl value Convert a 32 bit quantity from network to host byte ordering. @var{value} is packed into 4 bytes, which are then converted and returned as a new integer. @end deffn These procedures are inconvenient to use at present, but consider: @example (define write-network-long (lambda (value port) (let ((v (make-uniform-vector 1 1 0))) (uniform-vector-set! v 0 (htonl value)) (uniform-vector-write v port)))) (define read-network-long (lambda (port) (let ((v (make-uniform-vector 1 1 0))) (uniform-vector-read! v port) (ntohl (uniform-vector-ref v 0))))) @end example @node System Identification @section System Identification This section lists the various procedures Guile provides for accessing information about the system it runs on. @deffn primitive uname Return an object with some information about the computer system the program is running on. @end deffn The following procedures accept an object as returned by @code{uname} and return a selected component. @table @code @item utsname:sysname The name of the operating system. @item utsname:nodename The network name of the computer. @item utsname:release The current release level of the operating system implementation. @item utsname:version The current version level within the release of the operating system. @item utsname:machine A description of the hardware. @end table @deffn primitive gethostname Return the host name of the current processor. @end deffn @deffn primitive sethostname name Set the host name of the current processor to @var{name}. May only be used by the superuser. The return value is not specified. @end deffn @c FIXME::martin: Not in libguile! @deffn primitive software-type Return a symbol describing the current platform's operating system. This may be one of AIX, VMS, UNIX, COHERENT, WINDOWS, MS-DOS, OS/2, THINKC, AMIGA, ATARIST, MACH, or ACORN. Note that most varieties of Unix are considered to be simply "UNIX". That is because when a program depends on features that are not present on every operating system, it is usually better to test for the presence or absence of that specific feature. The return value of @code{software-type} should only be used for this purpose when there is no other easy or unambiguous way of detecting such features. @end deffn @node Locales @section Locales @deffn primitive setlocale category [locale] If @var{locale} is omitted, return the current value of the specified locale category as a system-dependent string. @var{category} should be specified using the values @code{LC_COLLATE}, @code{LC_ALL} etc. Otherwise the specified locale category is set to the string @var{locale} and the new value is returned as a system-dependent string. If @var{locale} is an empty string, the locale will be set using envirionment variables. @end deffn @node Encryption @section Encryption Please note that the procedures in this section are not suited for strong encryption, they are only interfaces to the well-known and common system library functions of the same name. They are just as good (or bad) as the underlying functions, so you should refer to your system documentation before using them. @deffn primitive crypt key salt Encrypt @var{key} using @var{salt} as the salt value to the crypt(3) library call @end deffn @code{getpass} is no encryption procedure at all, but it is often used in compination with @code{crypt}, that is why it appears in this section. @deffn primitive getpass prompt Display @var{prompt} to the standard error output and read a password from @file{/dev/tty}. If this file is not accessible, it reads from standard input. The password may be up to 127 characters in length. Additional characters and the terminating newline character are discarded. While reading the password, echoing and the generation of signals by special characters is disabled. @end deffn