putmsg(2)


putmsg, putpmsg -- send a message on a stream

Synopsis

   #include <stropts.h>
   

int putmsg(int fd, const struct strbuf *ctlptr, const struct strbuf *dataptr, int flags);

int putpmsg(int fd, const struct strbuf *ctlptr, const struct strbuf *dataptr, int band, int flags);

Description

putmsg creates a message from user-specified buffer(s) and sends the message to a STREAMS file. The message may contain either a data part, a control part, or both. The data and control parts to be sent are distinguished by placement in separate buffers, as described below. The semantics of each part is defined by the STREAMS module that receives the message.

The function putpmsg does the same thing as putmsg, but provides the user the ability to send messages in different priority bands. Except where noted, all information pertaining to putmsg also pertains to putpmsg.

fd specifies a file descriptor referencing an open stream. ctlptr and dataptr each point to a strbuf structure, which contains the following members:

   int maxlen;     /* not used */
   int len;        /* length of data */
   void *buf;      /* ptr to buffer */

ctlptr points to the structure describing the control part, if any, to be included in the message. The buf field in the strbuf structure points to the buffer where the control information resides, and the len field indicates the number of bytes to be sent. The maxlen field is not used in putmsg [see getmsg(2)]. In a similar manner, dataptr specifies the data, if any, to be included in the message. flags indicates what type of message should be sent and is described later.

To send the data part of a message, dataptr must not be NULL and the len field of dataptr must have a value of 0 or greater. To send the control part of a message, the corresponding values must be set for ctlptr. No data (control) part is sent if either dataptr (ctlptr) is NULL or the len field of dataptr (ctlptr) is set to -1.

For putmsg, if a control part is specified, and flags is set to RS_HIPRI, a high priority message is sent. If no control part is specified, and flags is set to RS_HIPRI, putmsg fails and sets errno to EINVAL. If flags is set to 0, a normal (non-priority) message is sent. If no control part and no data part are specified, and flags is set to 0, no message is sent, and 0 is returned.

The stream head guarantees that the control part of a message generated by putmsg is at least 64 bytes in length.

For putpmsg, the flags are different. flags is a bitmask with the following mutually-exclusive flags defined: MSG_HIPRI and MSG_BAND. If flags is set to 0, putpmsg fails and sets errno to EINVAL. If a control part is specified and flags is set to MSG_HIPRI and band is set to 0, a high-priority message is sent. If flags is set to MSG_HIPRI and either no control part is specified or band is set to a non-zero value, putpmsg fails and sets errno to EINVAL. If flags is set to MSG_BAND, then a message is sent in the priority band specified by band. If a control part and data part are not specified and flags is set to MSG_BAND, no message is sent and 0 is returned.

Normally, putmsg will block if the stream write queue is full due to internal flow control conditions. For high-priority messages, putmsg does not block on this condition. For other messages, putmsg does not block when the write queue is full and O_NONBLOCK is set. Instead, it fails and sets errno to EAGAIN.

putmsg or putpmsg also blocks, unless prevented by lack of internal resources, waiting for the availability of message blocks in the stream, regardless of priority or whether O_NONBLOCK has been specified. No partial message is sent.

Return values

On success, putmsg returns 0. On failure, putmsg returns -1 and sets errno to identify the error.

Errors

In the following conditions, putmsg fails and sets errno to:

EACCES
fildes is open to a dynamic device, and write permission on the device is denied.

EAGAIN
A non-priority message was specified, the O_NONBLOCK flag is set and the stream write queue is full due to internal flow control conditions.

EBADF
fd is not a valid file descriptor open for writing.

EFAULT
ctlptr or dataptr points outside the allocated address space.

EINTR
A signal was caught during the putmsg system call.

EINVAL
An undefined value was specified in flags, or flags is set to RS_HIPRI and no control part was supplied.

EINVAL
The stream referenced by fd is linked below a multiplexor.

EINVAL
For putpmsg, if flags is set to MSG_HIPRI and band is nonzero.

EIO
The file descriptor fildes refers to a streams-based pipe, and the other end of the pipe is closed.

ENOSR
Buffers could not be allocated for the message that was to be created due to insufficient STREAMS memory resources.

ENOSTR
A stream is not associated with fd.

ENXIO
A hangup condition was generated downstream for the specified stream.

ERANGE
The size of the data part of the message does not fall within the range specified by the maximum and minimum packet sizes of the topmost stream module. This value is also returned if the control part of the message is larger than the maximum configured size of the control part of a message, or if the data part of a message is larger than the maximum configured size of the data part of a message.

ENODEV
fildes points to a device that does not support the putmsg(2) operation.

putmsg also fails if a STREAMS error message had been processed by the stream head before the call to putmsg. The error returned is the value contained in the STREAMS error message.

References

getmsg(2), intro(2), poll(2), putmsg(2), read(2), write(2)

Notices

Compatibility Notes

The putmsg system call returns ENXIO when a hangup is generated downstream; this behavior is different from SCO UnixWare 2.1.1 where EIO was generated for this condition. EIO is only generated now if the file descriptor refers to a streams-based pipe, and the other end of the pipe is closed. This behavior is the same as the EPIPE error condition.

Considerations for threads programming

Open file descriptors are a process resource and available to any sibling thread; if used concurrently, actions by one thread can interfere with those of a sibling.

While one thread is blocked, siblings might still be executing.


© 2004 The SCO Group, Inc. All rights reserved.
UnixWare 7 Release 7.1.4 - 25 April 2004