1PUTMSG(3P)                 POSIX Programmer's Manual                PUTMSG(3P)
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PROLOG

6       This  manual  page is part of the POSIX Programmer's Manual.  The Linux
7       implementation of this interface may differ (consult the  corresponding
8       Linux  manual page for details of Linux behavior), or the interface may
9       not be implemented on Linux.
10

NAME

12       putmsg, putpmsg - send a message on a STREAM (STREAMS)
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SYNOPSIS

15       #include <stropts.h>
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17       int putmsg(int fildes, const struct strbuf *ctlptr,
18              const struct strbuf *dataptr, int flags);
19       int putpmsg(int fildes, const struct strbuf *ctlptr,
20              const struct strbuf *dataptr, int band, int flags);
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22

DESCRIPTION

24       The putmsg() function shall create a message from a  process  buffer(s)
25       and  send the message to a STREAMS file. The message may contain either
26       a data part, a control part, or both. The data and  control  parts  are
27       distinguished by placement in separate buffers, as described below. The
28       semantics of each part are defined by the STREAMS module that  receives
29       the message.
30
31       The  putpmsg()  function  is  equivalent  to  putmsg(), except that the
32       process can send messages in different  priority  bands.  Except  where
33       noted, all requirements on putmsg() also pertain to putpmsg().
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35       The  fildes  argument  specifies  a file descriptor referencing an open
36       STREAM. The ctlptr and dataptr arguments each point to a strbuf  struc‐
37       ture.
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39       The  ctlptr  argument  points  to  the structure describing the control
40       part, if any, to be included in the message. The buf member in the str‐
41       buf  structure  points  to  the  buffer  where  the control information
42       resides, and the len member indicates the number of bytes to  be  sent.
43       The  maxlen  member  is  not used by putmsg(). In a similar manner, the
44       argument dataptr specifies the data, if any, to be included in the mes‐
45       sage.  The flags argument indicates what type of message should be sent
46       and is described further below.
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48       To send the data part of a message, the application shall  ensure  that
49       dataptr  is  not  a  null pointer and the len member of dataptr is 0 or
50       greater. To send the control part of a message, the  application  shall
51       ensure  that the corresponding values are set for ctlptr. No data (con‐
52       trol) part shall be sent if either dataptr( ctlptr) is a  null  pointer
53       or the len member of dataptr( ctlptr) is set to -1.
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55       For  putmsg(),  if  a  control  part  is  specified and flags is set to
56       RS_HIPRI, a high priority message shall be sent.  If no control part is
57       specified,  and  flags  is set to RS_HIPRI, putmsg() shall fail and set
58       errno to [EINVAL].  If flags is set to 0, a  normal  message  (priority
59       band equal to 0) shall be sent. If a control part and data part are not
60       specified and flags is set to 0, no message shall be sent and  0  shall
61       be returned.
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63       For putpmsg(), the flags are different. The flags argument is a bitmask
64       with the following  mutually-exclusive  flags  defined:  MSG_HIPRI  and
65       MSG_BAND.  If  flags is set to 0, putpmsg() shall fail and set errno to
66       [EINVAL].  If a control part is specified and flags is set to MSG_HIPRI
67       and  band  is set to 0, a high-priority message shall be sent. If flags
68       is set to MSG_HIPRI and either no control part is specified or band  is
69       set  to  a  non-zero value, putpmsg() shall fail and set errno to [EIN‐
70       VAL]. If flags is set to MSG_BAND, then a message shall be sent in  the
71       priority  band  specified  by band. If a control part and data part are
72       not specified and flags is set to MSG_BAND, no message  shall  be  sent
73       and 0 shall be returned.
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75       The putmsg() function shall block if the STREAM write queue is full due
76       to internal flow control conditions, with the following exceptions:
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78        * For high-priority messages, putmsg() shall not block on this  condi‐
79          tion and continues processing the message.
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81        * For other messages, putmsg() shall not block but shall fail when the
82          write queue is full and O_NONBLOCK is set.
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84       The putmsg() function shall also block, unless  prevented  by  lack  of
85       internal  resources,  while  waiting  for  the  availability of message
86       blocks in the STREAM, regardless of priority or whether O_NONBLOCK  has
87       been specified. No partial message shall be sent.
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RETURN VALUE

90       Upon successful completion, putmsg() and putpmsg() shall return 0; oth‐
91       erwise, they shall return -1 and set errno to indicate the error.
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ERRORS

94       The putmsg() and putpmsg() functions shall fail if:
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96       EAGAIN A non-priority message was specified,  the  O_NONBLOCK  flag  is
97              set,  and  the  STREAM  write queue is full due to internal flow
98              control conditions; or buffers could not be  allocated  for  the
99              message that was to be created.
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101       EBADF  fildes is not a valid file descriptor open for writing.
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103       EINTR  A signal was caught during putmsg().
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105       EINVAL An  undefined  value  is  specified in flags, or flags is set to
106              RS_HIPRI or MSG_HIPRI and no control part is  supplied,  or  the
107              STREAM  or  multiplexer referenced by fildes is linked (directly
108              or indirectly) downstream from a multiplexer, or flags is set to
109              MSG_HIPRI and band is non-zero (for putpmsg() only).
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111       ENOSR  Buffers  could  not  be allocated for the message that was to be
112              created due to insufficient STREAMS memory resources.
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114       ENOSTR A STREAM is not associated with fildes.
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116       ENXIO  A hangup condition was generated downstream  for  the  specified
117              STREAM.
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119       EPIPE or EIO
120              The fildes argument refers to a STREAMS-based pipe and the other
121              end of the pipe is closed. A SIGPIPE signal is generated for the
122              calling thread.
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124       ERANGE The  size  of  the data part of the message does not fall within
125              the range specified by the maximum and minimum packet  sizes  of
126              the  topmost  STREAM  module. This value is also returned if the
127              control part of the message is larger than the  maximum  config‐
128              ured  size of the control part of a message, or if the data part
129              of a message is larger than the maximum configured size  of  the
130              data part of a message.
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133       In  addition,  putmsg() and putpmsg() shall fail if the STREAM head had
134       processed an asynchronous error before the  call.  In  this  case,  the
135       value  of  errno  does not reflect the result of putmsg() or putpmsg(),
136       but reflects the prior error.
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138       The following sections are informative.
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EXAMPLES

141   Sending a High-Priority Message
142       The value of fd is assumed to refer to an open STREAMS file.  This call
143       to putmsg() does the following:
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145        1. Creates  a  high-priority  message  with  a control part and a data
146           part, using the buffers pointed to by ctrlbuf and databuf,  respec‐
147           tively.
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149        2. Sends the message to the STREAMS file identified by fd.
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151              #include <stropts.h>
152              #include <string.h>
153              ...
154              int fd;
155              char *ctrlbuf = "This is the control part";
156              char *databuf = "This is the data part";
157              struct strbuf ctrl;
158              struct strbuf data;
159              int ret;
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161
162              ctrl.buf = ctrlbuf;
163              ctrl.len = strlen(ctrlbuf);
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165
166              data.buf = databuf;
167              data.len = strlen(databuf);
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169
170              ret = putmsg(fd, &ctrl, &data, MSG_HIPRI);
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172   Using putpmsg()
173       This example has the same effect as the previous example. In this exam‐
174       ple, however, the putpmsg() function creates and sends the  message  to
175       the STREAMS file.
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177
178              #include <stropts.h>
179              #include <string.h>
180              ...
181              int fd;
182              char *ctrlbuf = "This is the control part";
183              char *databuf = "This is the data part";
184              struct strbuf ctrl;
185              struct strbuf data;
186              int ret;
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188
189              ctrl.buf = ctrlbuf;
190              ctrl.len = strlen(ctrlbuf);
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192
193              data.buf = databuf;
194              data.len = strlen(databuf);
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197              ret = putpmsg(fd, &ctrl, &data, 0, MSG_HIPRI);
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APPLICATION USAGE

200       None.
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RATIONALE

203       None.
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FUTURE DIRECTIONS

206       None.
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SEE ALSO

209       STREAMS, getmsg(), poll(), read(), write(), the Base Definitions volume
210       of IEEE Std 1003.1-2001, <stropts.h>
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213       Portions of this text are reprinted and reproduced in  electronic  form
214       from IEEE Std 1003.1, 2003 Edition, Standard for Information Technology
215       -- Portable Operating System Interface (POSIX),  The  Open  Group  Base
216       Specifications  Issue  6,  Copyright  (C) 2001-2003 by the Institute of
217       Electrical and Electronics Engineers, Inc and The Open  Group.  In  the
218       event of any discrepancy between this version and the original IEEE and
219       The Open Group Standard, the original IEEE and The Open Group  Standard
220       is  the  referee document. The original Standard can be obtained online
221       at http://www.opengroup.org/unix/online.html .
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225IEEE/The Open Group                  2003                           PUTMSG(3P)
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