% % $Id$ % This file is part of the FPC documentation. % Copyright (C) 1998, by Michael Van Canneyt % % The FPC documentation is free text; you can redistribute it and/or % modify it under the terms of the GNU Library General Public License as % published by the Free Software Foundation; either version 2 of the % License, or (at your option) any later version. % % The FPC Documentation is distributed in the hope that it will be useful, % but WITHOUT ANY WARRANTY; without even the implied warranty of % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU % Library General Public License for more details. % % You should have received a copy of the GNU Library General Public % License along with the FPC documentation; see the file COPYING.LIB. If not, % write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, % Boston, MA 02111-1307, USA. % \chapter{The IPC unit.} This chapter describes the IPC unit for Free Pascal. It was written for \linux by Micha\"el Van Canneyt. It gives all the functionality of system V Inter-Process Communication: shared memory, semaphores and messages. The chapter is divided in 2 sections: \begin{itemize} \item The first section lists types, constants and variables from the interface part of the unit. \item The second section describes the functions defined in the unit. \end{itemize} \section {Types, Constants and variables : } \subsection{Variables} \begin{verbatim} Var IPCerror : longint; \end{verbatim} The \var{IPCerror} variable is used to report errors, by all calls. \subsection{Constants} \begin{verbatim} Const IPC_CREAT = 1 shl 9; { create if key is nonexistent } IPC_EXCL = 2 shl 9; { fail if key exists } IPC_NOWAIT = 4 shl 9; { return error on wait } \end{verbatim} These constants are used in the various \var{xxxget} calls. \begin{verbatim} IPC_RMID = 0; { remove resource } IPC_SET = 1; { set ipc_perm options } IPC_STAT = 2; { get ipc_perm options } IPC_INFO = 3; { see ipcs } \end{verbatim} These constants can be passed to the various \var{xxxctl} calls. \begin{verbatim} const MSG_NOERROR = 1 shl 12; MSG_EXCEPT = 2 shl 12; MSGMNI = 128; MSGMAX = 4056; MSGMNB = 16384; \end{verbatim} These constants are used in the messaging system, they are not for use by the programmer. \begin{verbatim} const SEM_UNDO = $1000; GETPID = 11; GETVAL = 12; GETALL = 13; GETNCNT = 14; GETZCNT = 15; SETVAL = 16; SETALL = 17; \end{verbatim} These constants call be specified in the \seef{semop} call. \begin{verbatim} SEMMNI = 128; SEMMSL = 32; SEMMNS = (SEMMNI * SEMMSL); SEMOPM = 32; SEMVMX = 32767; \end{verbatim} These constanst are used internally by the semaphore system, they should not be used by the programmer. \begin{verbatim} const SHM_R = 4 shl 6; SHM_W = 2 shl 6; SHM_RDONLY = 1 shl 12; SHM_RND = 2 shl 12; SHM_REMAP = 4 shl 12; SHM_LOCK = 11; SHM_UNLOCK = 12; \end{verbatim} These constants are used in the \seef{shmctl} call. \subsection{Types} \begin{verbatim} Type TKey = Longint; \end{verbatim} \var{TKey} is the type returned by the \seef{ftok} key generating function. \begin{verbatim} type PIPC_Perm = ^TIPC_Perm; TIPC_Perm = record key : TKey; uid, gid, cuid, cgid, mode, seq : Word; end; \end{verbatim} The \var{TIPC\_Perm} structure is used in all IPC systems to specify the permissions. \begin{verbatim} Type PSHMid_DS = ^TSHMid_ds; TSHMid_ds = record shm_perm : TIPC_Perm; shm_segsz : longint; shm_atime : longint; shm_dtime : longint; shm_ctime : longint; shm_cpid : word; shm_lpid : word; shm_nattch : integer; shm_npages : word; shm_pages : Pointer; attaches : pointer; end; \end{verbatim} The \var{TSHMid\_ds} strucure is used in the \seef{shmctl} call to set or retrieve settings concerning shared memory. \begin{verbatim} type PSHMinfo = ^TSHMinfo; TSHMinfo = record shmmax : longint; shmmin : longint; shmmni : longint; shmseg : longint; shmall : longint; end; \end{verbatim} The \var{TSHMinfo} record is used by the shared memory system, and should not be accessed by the programer directly. \begin{verbatim} type PMSG = ^TMSG; TMSG = record msg_next : PMSG; msg_type : Longint; msg_spot : PChar; msg_stime : Longint; msg_ts : Integer; end; \end{verbatim} The \var{TMSG} record is used in the handling of message queues. There should be few cases where the programmer needs to access this data. \begin{verbatim} type PMSQid_ds = ^TMSQid_ds; TMSQid_ds = record msg_perm : TIPC_perm; msg_first : PMsg; msg_last : PMsg; msg_stime : Longint; msg_rtime : Longint; msg_ctime : Longint; wwait : Pointer; rwait : pointer; msg_cbytes : word; msg_qnum : word; msg_qbytes : word; msg_lspid : word; msg_lrpid : word; end; \end{verbatim} The \var{TMSQid\_ds} record is returned by the \seef{msgctl} call, and contains all data about a message queue. \begin{verbatim} PMSGbuf = ^TMSGbuf; TMSGbuf = record mtype : longint; mtext : array[0..0] of char; end; \end{verbatim} The \var{TMSGbuf} record is a record containing the data of a record. you should never use this record directly, instead you should make your own record that follows the structure of the \var{TMSGbuf} record, but that has a size that is big enough to accomodate your messages. The \var{mtype} field should always be present, and should always be filled. \begin{verbatim} Type PMSGinfo = ^TMSGinfo; TMSGinfo = record msgpool : Longint; msgmap : Longint; msgmax : Longint; msgmnb : Longint; msgmni : Longint; msgssz : Longint; msgtql : Longint; msgseg : Word; end; \end{verbatim} The \var{TMSGinfo} record is used internally by the message queue system, and should not be used by the programmer directly. \begin{verbatim} Type PSEMid_ds = ^PSEMid_ds; TSEMid_ds = record sem_perm : tipc_perm; sem_otime : longint; sem_ctime : longint; sem_base : pointer; sem_pending : pointer; sem_pending_last : pointer; undo : pointer; sem_nsems : word; end; \end{verbatim} The \var{TSEMid\_ds} structure is returned by the \seef{semctl} call, and contains all data concerning a semahore. \begin{verbatim} Type PSEMbuf = ^TSEMbuf; TSEMbuf = record sem_num : word; sem_op : integer; sem_flg : integer; end; \end{verbatim} The \var{TSEMbuf} record us use in the \seef{semop} call, and is used to specify which operations you want to do. \begin{verbatim} Type PSEMinfo = ^TSEMinfo; TSEMinfo = record semmap : longint; semmni : longint; semmns : longint; semmnu : longint; semmsl : longint; semopm : longint; semume : longint; semusz : longint; semvmx : longint; semaem : longint; end; \end{verbatim} The \var{TSEMinfo} record is used internally by the semaphore system, and should not be used diirectly. \begin{verbatim} Type PSEMun = ^TSEMun; TSEMun = record case longint of 0 : ( val : longint ); 1 : ( buf : PSEMid_ds ); 2 : ( arr : PWord ); 3 : ( padbuf : PSeminfo ); 4 : ( padpad : pointer ); end; \end{verbatim} The \var{TSEMun} variant record (actually a C union) is used in the \seef{semctl} call. \section{Functions and procedures} \begin{function}{ftok} \Declaration Function ftok (Path : String; ID : char) : TKey; \Description \var{ftok} returns a key that can be used in a \seef{semget},\seef{shmget} or \seef{msgget} call to access a new or existing IPC resource. \var{Path} is the name of a file in the file system, \var{ID} is a character of your choice. The ftok call does the same as it's C couterpart, so a pascal program and a C program will access the same resource if they use the same \var{Path} and \var{ID} \Errors \var{ftok} returns -1 if the file in \var{Path} doesn't exist. \SeeAlso \seef{semget},\seef{shmget},\seef{msgget} \end{function} For an example, see \seef{msgctl}, \seef{semctl}, \seef{shmctl}. \begin{function}{msgget} \Declaration Function msgget(key: TKey; msgflg:longint):longint; \Description \var{msgget} returns the ID of the message queue described by \var{key}. Depending on the flags in \var{msgflg}, a new queue is created. \var{msgflg} can have one or more of the following values (combined by ORs): \begin{description} \item[IPC\_CREAT] The queue is created if it doesn't already exist. \item[IPC\_EXCL] If used in combination with \var{IPC\_CREAT}, causes the call to fail if the queue already exists. It cannot be used by itself. \end{description} Optionally, the flags can be \var{OR}ed with a permission mode, which is the same mode that can be used in the file system. \Errors On error, -1 is returned, and \var{IPCError} is set. \SeeAlso \seef{ftok},\seef{msgsnd}, \seef{msgrcv}, \seef{msgctl}, \seem{semget}{2} \end{function} For an example, see \seef{msgctl}. \begin{function}{msgsnd} \Declaration Function msgsnd(msqid:longint; msgp: PMSGBuf; msgsz: longint; msgflg:longint): Boolean; \Description \var{msgsend} sends a message to a message queue with ID \var{msqid}. \var{msgp} is a pointer to a message buffer, that should be based on the \var{TMsgBuf} type. \var{msgsiz} is the size of the message (NOT of the message buffer record !) The \var{msgflg} can have a combination of the following values (ORed together): \begin{description} \item [0] No special meaning. The message will be written to the queue. If the queue is full, then the process is blocked. \item [IPC\_NOWAIT] If the queue is full, then no message is written, and the call returns immediatly. \end{description} The function returns \var{True} if the message was sent successfully, \var{False} otherwise. \Errors In case of error, the call returns \var{False}, and \var{IPCerror} is set. \SeeAlso \seef{msgget}, \seef{msgrcv}, seef{msgctl} \end{function} For an example, see \seef{msgctl}. \begin{function}{msgrcv} \Declaration Function msgrcv(msqid:longint; msgp: PMSGBuf; msgsz: longint; msgtyp:longint; msgflg:longint): Boolean; \Description \var{msgrcv} retrieves a message of type \var{msgtyp} from the message queue with ID \var{msqid}. \var{msgtyp} corresponds to the \var{mtype} field of the \var{TMSGbuf} record. The message is stored in the \var{MSGbuf} structure pointed to by \var{msgp}. The \var{msgflg} parameter can be used to control the behaviour of the \var{msgrcv} call. It consists of an ORed combination of the following flags: \begin{description} \item [0] No special meaning. \item [IPC\_NOWAIT] if no messages are available, then the call returns immediatly, with the \var{ENOMSG} error. \item [MSG\_NOERROR] If the message size is wrong (too large), no error is generated, instead the message is truncated. Normally, in such cases, the call returns an error (E2BIG) \end{description} The function returns \var{True} if the message was received correctly, \var{False} otherwise. \Errors In case of error, \var{False} is returned, and \var{IPCerror} is set. \SeeAlso \seef{msgget}, \seef{msgsnd}, \seef{msgctl} \end{function} For an example, see \seef{msgctl}. \begin{function}{msgctl} \Declaration Function msgctl(msqid:longint; cmd: longint; buf: PMSQid\_ds): Boolean; \Description \var{msgctl} performs various operations on the message queue with id \var{ID}. Which operation is performed, depends on the \var{cmd} parameter, which can have one of the following values: \begin{description} \item[IPC\_STAT] In this case, the \var{msgctl} call fills the \var{TMSQid\_ds} structure with information about the message queue. \item[IPC\_SET] in this case, the \var{msgctl} call sets the permissions of the queue as specified in the \var{ipc\_perm} record inside \var{buf}. \item[IPC\_RMID] If this is specified, the message queue will be removed from the system. \end{description} \var{buf} contains the data that are needed by the call. It can be \var{Nil} in case the message queue should be removed. The function returns \var{True} if successfull, \var{False} otherwise. \Errors On error, \var{False} is returned, and \var{IPCerror} is set accordingly. \SeeAlso \seef{msgget}, \seef{msgsnd}, \seef{msgrcv} \end{function} \latex{\lstinputlisting{ipcex/msgtool.pp}} \html{\input{ipcex/msgtool.tex}} \begin{function}{semget} \Declaration Function semget(key:Tkey; nsems:longint; semflg:longint): longint; \Description \var{msgget} returns the ID of the semaphore set described by \var{key}. Depending on the flags in \var{semflg}, a new queue is created. \var{semflg} can have one or more of the following values (combined by ORs): \begin{description} \item[IPC\_CREAT] The queue is created if it doesn't already exist. \item[IPC\_EXCL] If used in combination with \var{IPC\_CREAT}, causes the call to fail if the set already exists. It cannot be used by itself. \end{description} Optionally, the flags can be \var{OR}ed with a permission mode, which is the same mode that can be used in the file system. if a new set of semaphores is created, then there will be \var{nsems} semaphores in it. \Errors On error, -1 is returned, and \var{IPCError} is set. \SeeAlso \seef{ftok}, \seef{semop}, \seef{semctl} \end{function} \begin{function}{semop} \Declaration Function semop(semid:longint; sops: pointer; nsops: cardinal): Boolean; \Description \var{semop} performs a set of operations on a message queue. \var{sops} points to an array of type \var{TSEMbuf}. The array should contain \var{nsops} elements. The fields of the \var{TSEMbuf} structure \begin{verbatim} TSEMbuf = record sem_num : word; sem_op : integer; sem_flg : integer; \end{verbatim} should be filled as follows: \begin{description} \item[sem\_num] The number of the semaphore in the set on which the operation must be performed. \item[sem\_op] The operation to be performed. The operation depends on the sign of \var{sem\_op} \begin{enumerate} \item A positive number is simply added to the current value of the semaphore. \item If 0 (zero) is specified, then the process is suspended until the specified semaphore reaches zero. \item If a negative number is specified, it is substracted from the current value of the semaphore. If the value would become negative then the process is suspended until the value becomes big enough, unless \var{IPC\_NOWAIT} is specified in the \var{sem\_flg}. \end{enumerate} \item[sem\_flg] Optional flags: if \var{IPC\_NOWAIT} is specified, then the calling process will never be suspended. \end{description} The function returns \var{True} if the operations were successful, \var{False} otherwise. \Errors In case of error, \var{False} is returned, and \var{IPCerror} is set. \SeeAlso \seef{semget}, \seef{semctl} \end{function} \begin{function}{semctl} \Declaration Function semctl(semid:longint; semnum:longint; cmd:longint; var arg: tsemun): longint; \Description \var{semctl} performs various operations on the semaphore \var{semnum} w ith semaphore set id \var{ID}. The \var{arg} parameter supplies the data needed for each call. This is a variant record that should be filled differently, according to the command: \begin{verbatim} Type TSEMun = record case longint of 0 : ( val : longint ); 1 : ( buf : PSEMid_ds ); 2 : ( arr : PWord ); 3 : ( padbuf : PSeminfo ); 4 : ( padpad : pointer ); end; \end{verbatim} Which operation is performed, depends on the \var{cmd} parameter, which can have one of the following values: \begin{description} \item[IPC\_STAT] In this case, the arg record should have it's \var{buf} field set to the address of a \var{TSEMid\_ds} record. The \var{semctl} call fills this \var{TSEMid\_ds} structure with information about the semaphore set. \item[IPC\_SET] In this case, the \var{arg} record should have it's \var{buf} field set to the address of a \var{TSEMid\_ds} record. The \var{semctl} call sets the permissions of the queue as specified in the \var{ipc\_perm} record. \item[IPC\_RMID] If this is specified, the semaphore set is removed from from the system. \item[GETALL] In this case, the \var{arr} field of \var{arg} should point to a memory area where the values of the semaphores will be stored. The size of this memory area is \var{SizeOf(Word)* Number of semaphores in the set}. This call will then fill the memory array with all the values of the semaphores. \item[GETNCNT] This will fill the \var{val} field of the \var{arg} union with the bumber of processes waiting for resources. \item[GETPID] \var{semctl} returns the process ID of the process that performed the last \seef{semop} call. \item[GETVAL] \var{semctl} returns the value of the semaphore with number \var{semnum}. \item[GETZCNT] \var{semctl} returns the number of processes waiting for semaphores that reach value zero. \item[SETALL] In this case, the \var{arr} field of \var{arg} should point to a memory area where the values of the semaphores will be retrieved from. The size of this memory area is \var{SizeOf(Word)* Number of semaphores in the set}. This call will then set the values of the semaphores from the memory array. \item[SETVAL] This will set the value of semaphore \var{semnum} to the value in the \var{val} field of the \var{arg} parameter. \end{description} The function returns -1 on error. \Errors The function returns -1 on error, and \var{IPCerror} is set accordingly. \SeeAlso \seef{semget}, \seef{semop} \end{function} \latex{\lstinputlisting{ipcex/semtool.pp}} \html{\input{ipcex/semtool.tex}} \begin{function}{shmget} \Declaration Function shmget(key: Tkey; Size:longint; flag:longint):longint; \Description \var{shmget} returns the ID of a shared memory block, described by \var{key}. Depending on the flags in \var{flag}, a new memory block is created. \var{flag} can have one or more of the following values (combined by ORs): \begin{description} \item[IPC\_CREAT] The queue is created if it doesn't already exist. \item[IPC\_EXCL] If used in combination with \var{IPC\_CREAT}, causes the call to fail if the queue already exists. It cannot be used by itself. \end{description} Optionally, the flags can be \var{OR}ed with a permission mode, which is the same mode that can be used in the file system. if a new memory block is created, then it will have size \var{Size} semaphores in it. \Errors On error, -1 is returned, and \var{IPCError} is set. \SeeAlso \end{function} \begin{function}{shmat} \Declaration Function shmat (shmid:longint; shmaddr:pchar; shmflg:longint):pchar; \Description \var{shmat} attaches a shared memory block with identified \var{shmid} to the current process. The function returns a pointer to the shared memory block. If \var{shmaddr} is \var{Nil}, then the system chooses a free unmapped memory region, as high up in memory space as possible. If \var{shmaddr} is non-nil, and \var{SHM\_RND} is in \var{shmflg}, then the returned address is \var{shmaddr}, rounded down to \var{SHMLBA}. If \var{SHM\_RND} is not specified, then \var{shmaddr} must be a page-aligned address. The parameter \var{shmflg} can be used to control the behaviour of the \var{shmat} call. It consists of a ORed combination of the following costants: \begin{description} \item[SHM\_RND] The suggested address in \var{shmaddr} is rounded down to \var{SHMLBA}. \item[SHM\_RDONLY] the shared memory is attached for read access only. Otherwise the memory is attached for read-write. The process then needs read-write permissions to access the shared memory. \end{description} \Errors If an error occurs, -1 is returned, and \var{IPCerror} is set. \SeeAlso \seef{shmget}, \seef{shmdt}, \seef{shmctl} \end{function} For an example, see \seef{shmctl}. \begin{function}{shmdt} \Declaration Function shmdt (shmaddr:pchar):boolean; \Description \var{shmdt} detaches the shared memory at address \var{shmaddr}. This shared memory block is unavailable to the current process, until it is attached again by a call to \seef{shmat}. The function returns \var{True} if the memory block was detached successfully, \var{False} otherwise. \Errors On error, False is returned, and IPCerror is set. \SeeAlso \seef{shmget}, \seef{shmat}, \seef{shmctl} \end{function} \begin{function}{shmctl} \Declaration Function shmctl(shmid:longint; cmd:longint; buf: pshmid\_ds): Boolean; \Description \var{shmctl} performs various operations on the shared memory block identified by identifier \var{shmid}. The \var{buf} parameter points to a \var{TSHMid\_ds} record. The \var{cmd} parameter is used to pass which operation is to be performed. It can have one of the following values : \begin{description} \item[IPC\_STAT] \var{shmctl} fills the \var{TSHMid\_ds} record that \var{buf} points to with the available information about the shared memory block. \item[IPC\_SET] applies the values in the \var{ipc\_perm} record that \var{buf} points to, to the shared memory block. \item[IPC\_RMID] the shared memory block is destroyed (after all processes to which the block is attached, have detached from it). \end{description} If successful, the function returns \var{True}, \var{False} otherwise. \Errors If an error occurs, the function returns \var{False}, and \var{IPCerror} is set. \SeeAlso \seef{shmget}, \seef{shmat}, \seef{shmdt} \end{function} \latex{\lstinputlisting{ipcex/shmtool.pp}} \html{\input{ipcex/shmtool.tex}}