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6 .TH PTS 7D "Aug 21, 1992"
8 pts \- STREAMS pseudo-tty slave driver
12 The pseudo-tty subsystem simulates a terminal connection, where the master side
13 represents the terminal and the slave represents the user process's special
14 device end point. In order to use the pseudo-tty subsystem, a node for the
15 master side driver \fB/dev/ptmx\fR and N nodes for the slave driver (N is
16 determined at installation time) must be installed. The names of the slave
17 devices are \fB/dev/pts/M\fR where \fBM\fR has the values 0 through N-1. When
18 the master device is opened, the corresponding slave device is automatically
19 locked out. No user may open that slave device until its permissions are
20 adjusted and the device unlocked by calling functions \fBgrantpt\fR(3C) and
21 \fBunlockpt\fR(3C). The user can then invoke the open system call with the name
22 that is returned by the \fBptsname\fR(3C) function. See the example below.
25 Only one open is allowed on a master device. Multiple opens are allowed on the
26 slave device. After both the master and slave have been opened, the user has
27 two file descriptors which are end points of a full duplex connection composed
28 of two streams automatically connected at the master and slave drivers. The
29 user may then push modules onto either side of the stream pair. The user needs
30 to push the \fBptem\fR(7M) and \fBldterm\fR(7M) modules onto the slave side of
31 the pseudo-terminal subsystem to get terminal semantics.
34 The master and slave drivers pass all messages to their adjacent queues. Only
35 the \fBM_FLUSH\fR needs some processing. Because the read queue of one side is
36 connected to the write queue of the other, the \fBFLUSHR\fR flag is changed to
37 the \fBFLUSHW\fR flag and vice versa. When the master device is closed an
38 \fBM_HANGUP\fR message is sent to the slave device which will render the device
39 unusable. The process on the slave side gets the errno \fBEIO\fR when
40 attempting to write on that stream but it will be able to read any data
41 remaining on the stream head read queue. When all the data has been read, read
42 returns 0 indicating that the stream can no longer be used. On the last close
43 of the slave device, a 0-length message is sent to the master device. When the
44 application on the master side issues a \fBread()\fR or \fBgetmsg()\fR and 0 is
45 returned, the user of the master device decides whether to issue a
46 \fBclose()\fR that dismantles the pseudo-terminal subsystem. If the master
47 device is not closed, the pseudo-tty subsystem will be available to another
48 user to open the slave device. Since 0-length messages are used to indicate
49 that the process on the slave side has closed and should be interpreted that
50 way by the process on the master side, applications on the slave side should
51 not write 0-length messages. If that occurs, the write returns 0, and the
52 0-length message is discarded by the \fBptem\fR module.
55 The standard STREAMS system calls can access the pseudo-tty devices. The slave
56 devices support the \fBO_NDELAY\fR and \fBO_NONBLOCK\fR flags.
63 extern char *ptsname();
65 fdm = open("/dev/ptmx", O_RDWR); /* open master */
66 grantpt(fdm); /* change permission of slave */
67 unlockpt(fdm); /* unlock slave */
68 slavename = ptsname(fdm); /* get name of slave */
69 fds = open(slavename, O_RDWR); /* open slave */
70 ioctl(fds, I_PUSH, "ptem"); /* push ptem */
71 ioctl(fds, I_PUSH, "ldterm"); /* push ldterm*/
88 \fB\fB/dev/pts/M\fR\fR
91 slave devices (M = 0 -> N-1)
97 \fBgrantpt\fR(3C), \fBptsname\fR(3C), \fBunlockpt\fR(3C), \fBldterm\fR(7M),
98 \fBptm\fR(7D), \fBptem\fR(7M)
101 \fISTREAMS Programming Guide\fR