xref: /freebsd/lib/libc/net/sctp_sendmsg.3 (revision 1e413cf93298b5b97441a21d9a50fdcd0ee9945e)
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32.\"     From: @(#)send.2	8.2 (Berkeley) 2/21/94
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35.Dd December 15, 2006
36.Dt SCTP_SENDMSG 3
37.Os
38.Sh NAME
39.Nm sctp_sendmsg ,
40.Nm sctp_sendmsgx
41.Nd send a message from an SCTP socket
42.Sh LIBRARY
43.Lb libc
44.Sh SYNOPSIS
45.In sys/types.h
46.In sys/socket.h
47.In netinet/sctp.h
48.Ft ssize_t
49.Fo sctp_sendmsg
50.Fa "int s" "const void *msg" "size_t len" "const struct sockaddr *to"
51.Fa "socklen_t tolen" "uint32_t ppid" "uint32_t flags" "uint16_t stream_no"
52.Fa "uint32_t timetolive" "uint32_t context"
53.Fc
54.Ft ssize_t
55.Fo sctp_sendmsgx
56.Fa "int s" "const void *msg" "size_t len" "const struct sockaddr *to"
57.Fa "int addrcnt" "uint32_t ppid" "uint32_t flags" "uint16_t stream_no"
58.Fa "uint32_t timetolive" "uint32_t context"
59.Fc
60.Sh DESCRIPTION
61The
62.Fn sctp_sendmsg
63system call
64is used to transmit a message to another SCTP endpoint.
65The
66.Fn sctp_sendmsg
67may be used at any time.
68If the socket is a one-to-many type (SOCK_SEQPACKET)
69socket then an attempt to send to an address that no association exists to will
70implicitly create a new association.
71Data sent in such an instance will result in
72the data being sent on the third leg of the SCTP four-way handshake.
73Note that if
74the socket is a one-to-one type (SOCK_STREAM) socket then an association must
75be in existance (by use of the
76.Xr connect 2
77system call).
78Calling
79.Fn sctp_sendmsg
80or
81.Fn sctp_sendmsgx
82on a non-connected one-to-one socket will result in
83.Va errno
84being set to
85.Er ENOTCONN ,
86-1 being returned, and the message not being transmitted.
87.Pp
88The address of the target is given by
89.Fa to
90with
91.Fa tolen
92specifying its size.
93The length of the message
94.Fa msg
95is given by
96.Fa len .
97If the message is too long to pass atomically through the
98underlying protocol,
99.Va errno
100is set to
101.Er EMSGSIZE ,
102-1 is returned, and
103the message is not transmitted.
104.Pp
105No indication of failure to deliver is implicit in a
106.Xr sctp_sendmsg 2
107call.
108Locally detected errors are indicated by a return value of -1.
109.Pp
110If no space is available at the socket to hold
111the message to be transmitted, then
112.Xr sctp_sendmsg 2
113normally blocks, unless the socket has been placed in
114non-blocking I/O mode.
115The
116.Xr select 2
117system call may be used to determine when it is possible to
118send more data on one-to-one type (SOCK_STREAM) sockets.
119.Pp
120The
121.Fa ppid
122argument is an opaque 32 bit value that is passed transparently
123through the stack to the peer endpoint.
124It will be available on
125reception of a message (see
126.Xr sctp_recvmsg 2 ) .
127Note that the stack passes this value without regard to byte
128order.
129.Pp
130The
131.Fa flags
132argument may include one or more of the following:
133.Bd -literal
134#define SCTP_EOF 	  0x0100	/* Start a shutdown procedures */
135#define SCTP_ABORT	  0x0200	/* Send an ABORT to peer */
136#define SCTP_UNORDERED 	  0x0400	/* Message is un-ordered */
137#define SCTP_ADDR_OVER	  0x0800	/* Override the primary-address */
138#define SCTP_SENDALL      0x1000	/* Send this on all associations */
139					/* for the endpoint */
140/* The lower byte is an enumeration of PR-SCTP policies */
141#define SCTP_PR_SCTP_TTL  0x0001	/* Time based PR-SCTP */
142#define SCTP_PR_SCTP_BUF  0x0002	/* Buffer based PR-SCTP */
143#define SCTP_PR_SCTP_RTX  0x0003	/* Number of retransmissions based PR-SCTP */
144.Ed
145.Pp
146The flag
147.Dv SCTP_EOF
148is used to instruct the SCTP stack to queue this message
149and then start a graceful shutdown of the association.
150All
151remaining data in queue will be sent after which the association
152will be shut down.
153.Pp
154.Dv SCTP_ABORT
155is used to immediately terminate an association.
156An abort
157is sent to the peer and the local TCB is destroyed.
158.Pp
159.Dv SCTP_UNORDERED
160is used to specify that the message being sent has no
161specific order and should be delivered to the peer application
162as soon as possible.
163When this flag is absent messages
164are delivered in order within the stream they are sent, but without
165respect to order to peer streams.
166.Pp
167The flag
168.Dv SCTP_ADDR_OVER
169is used to specify that an specific address should be used.
170Normally
171SCTP will use only one of a multi-homed peers addresses as the primary
172address to send to.
173By default, no matter what the
174.Fa to
175argument is, this primary address is used to send data.
176By specifying
177this flag, the user is asking the stack to ignore the primary address
178and instead use the specified address not only as a lookup mechanism
179to find the association but also as the actual address to send to.
180.Pp
181For a one-to-many type (SOCK_SEQPACKET) socket the flag
182.Dv SCTP_SENDALL
183can be used as a convient way to make one send call and have
184all associations that are under the socket get a copy of the message.
185Note that this mechanism is quite efficent and makes only one actual
186copy of the data which is shared by all the associations for sending.
187.Pp
188The remaining flags are used for the partial reliability extension (RFC3758)
189and will only be effective if the peer endpoint supports this extension.
190This option specifies what local policy the local endpoint should use
191in skipping data.
192If none of these options are set, then data is
193never skipped over.
194.Pp
195.Dv SCTP_PR_SCTP_TTL
196is used to indicate that a time based lifetime is being applied
197to the data.
198The
199.Fa timetolive
200argument is then a number of milliseconds for which the data is
201attempted to be transmitted.
202If that many milliseconds ellapse
203and the peer has not acknowledged the data, the data will be
204skipped and no longer transmitted.
205Note that this policy does
206not even assure that the data will ever be sent.
207In times of a congestion
208with large amounts of data being queued, the
209.Fa timetolive
210may expire before the first transmission is ever made.
211.Pp
212The
213.Dv SCTP_PR_SCTP_BUF
214based policy transforms the
215.Fa timetolive
216field into a total number of bytes allowed on the outbound
217send queue.
218If that number or more bytes are in queue, then
219other buffer based sends are looked to be removed and
220skipped.
221Note that this policy may also result in the data
222never being sent if no buffer based sends are in queue and
223the maximum specified by
224.Fa timetolive
225bytes is in queue.
226.Pp
227The
228.Dv SCTP_PR_SCTP_RTX
229policy transforms the
230.Fa timetolive
231into a number of retransmissions to allow.
232This policy
233always assures that at a minimum one send attempt is
234made of the data.
235After which no more than
236.Fa timetolive
237retransmissions will be made before the data is skipped.
238.Pp
239.Fa stream_no
240is the SCTP stream that you wish to send the
241message on.
242Streams in SCTP are reliable (or partially reliable) flows of ordered
243messages.
244The
245.Fa context
246field is used only in the event the message cannot be sent.
247This is an opaque
248value that the stack retains and will give to the user when a failed send
249is given if that notification is enabled (see
250.Xr sctp 4 ) .
251Normally a user process can use this value to index some application
252specific data structure when a send cannot be fulfilled.
253.Fn sctp_sendmsgx
254is identical to
255.Fn sctp_sendmsg
256with the exception that it takes an array of sockaddr structures in the
257argument
258.Fa to
259and adds the additional argument
260.Fa addrcnt
261which specifies how many addresses are in the array.
262This allows a
263caller to implicitly set up an association passing multiple addresses
264as if
265.Fn sctp_connectx
266had been called to set up the association.
267.Sh RETURN VALUES
268The call returns the number of characters sent, or -1
269if an error occurred.
270.Sh ERRORS
271The
272.Fn sctp_sendmsg
273system call
274fail if:
275.Bl -tag -width Er
276.It Bq Er EBADF
277An invalid descriptor was specified.
278.It Bq Er ENOTSOCK
279The argument
280.Fa s
281is not a socket.
282.It Bq Er EFAULT
283An invalid user space address was specified for an argument.
284.It Bq Er EMSGSIZE
285The socket requires that message be sent atomically,
286and the size of the message to be sent made this impossible.
287.It Bq Er EAGAIN
288The socket is marked non-blocking and the requested operation
289would block.
290.It Bq Er ENOBUFS
291The system was unable to allocate an internal buffer.
292The operation may succeed when buffers become available.
293.It Bq Er ENOBUFS
294The output queue for a network interface was full.
295This generally indicates that the interface has stopped sending,
296but may be caused by transient congestion.
297.It Bq Er EHOSTUNREACH
298The remote host was unreachable.
299.It Bq Er ENOTCON
300On a one-to-one style socket no association exists.
301.It Bq Er ECONNRESET
302An abort was received by the stack while the user was
303attempting to send data to the peer.
304.It Bq Er ENOENT
305On a one-to-many style socket no address is specified
306so that the association cannot be located or the
307.Dv SCTP_ABORT
308flag was specified on a non-existing association.
309.It Bq Er EPIPE
310The socket is unable to send anymore data
311.Dv ( SBS_CANTSENDMORE
312has been set on the socket).
313This typically means that the socket
314is not connected and is a one-to-one style socket.
315.El
316.Sh SEE ALSO
317.Xr connect 2 ,
318.Xr getsockopt 2 ,
319.Xr recv 2 ,
320.Xr select 2 ,
321.Xr socket 2 ,
322.Xr write 2 ,
323.Xr sctp_connectx 3 ,
324.Xr sendmsg 3 ,
325.Xr sctp 4
326.Sh BUGS
327Because in the one-to-many style socket the
328.Fn sctp_sendmsg
329or
330.Fn sctp_sendmsgx
331may have multiple associations under one endpoint, a
332select on write will only work for a one-to-one style
333socket.
334