|T_SNDV(3NSL)||Networking Services Library Functions||T_SNDV(3NSL)|
t_sndv - send data or expedited data, from one or more non-contiguous buffers, on a connection
#include <xti.h> int t_sndv(int fd, const struct t_iovec *iov, unsigned int iovcount, int flags);
This function is used to send either normal or expedited data. The argument fd identifies the local transport endpoint over which data should be sent, iov points to an array of buffer address/buffer length pairs. t_sndv() sends data contained in buffers iov0 , iov1 , through iov [iovcount-1]. iovcount contains the number of non-contiguous data buffers which is limited to T_IOV_MAX, an implementation-defined value of at least 16. If the limit is exceeded, the function fails with TBADDATA.
iov(0).iov_len + . . + iov(iovcount-1).iov_len)
Note that the limit on the total number of bytes available in all buffers passed:
may be constrained by implementation limits. If no other constraint applies, it will be limited by INT_MAX. In practice, the availability of memory to an application is likely to impose a lower limit on the amount of data that can be sent or received using scatter/gather functions.
The argument flags specifies any optional flags described below:
The end of the TSDU (or ETSDU) is identified by a t_sndv() call with the T_MORE flag not set. Use of T_MORE enables a user to break up large logical data units without losing the boundaries of those units at the other end of the connection. The flag implies nothing about how the data is packaged for transfer below the transport interface. If the transport provider does not support the concept of a TSDU as indicated in the info argument on return from t_open(3NSL) or t_getinfo(3NSL), the T_MORE flag is not meaningful and will be ignored if set.
The sending of a zero-length fragment of a TSDU or ETSDU is only permitted where this is used to indicate the end of a TSDU or ETSDU, that is, when the T_MORE flag is not set. Some transport providers also forbid zero-length TSDUs and ETSDUs.
If set in flags, requests that the provider transmit all data that it has accumulated but not sent. The request is a local action on the provider and does not affect any similarly named protocol flag (for example, the TCP PUSH flag). This effect of setting this flag is protocol‐dependent, and it may be ignored entirely by transport providers which do not support the use of this feature.
The communications provider is free to collect data in a send buffer until it accumulates a sufficient amount for transmission.
By default, t_sndv() operates in synchronous mode and may wait if flow control restrictions prevent the data from being accepted by the local transport provider at the time the call is made. However, if O_NONBLOCK is set by means of t_open(3NSL) or fcntl(2), t_sndv() executes in asynchronous mode, and will fail immediately if there are flow control restrictions. The process can arrange to be informed when the flow control restrictions are cleared via either t_look(3NSL) or the EM interface.
On successful completion, t_sndv() returns the number of bytes accepted by the transport provider. Normally this will equal the total number of bytes to be sent, that is,
(iov0.iov_len + .. + iov[iovcount-1].iov_len)
However, the interface is constrained to send at most INT_MAX bytes in a single send. When t_sndv() has submitted INT_MAX (or lower constrained value, see the note above) bytes to the provider for a single call, this value is returned to the user. However, if O_NONBLOCK is set or the function is interrupted by a signal, it is possible that only part of the data has actually been accepted by the communications provider. In this case, t_sndv() returns a value that is less than the value of nbytes. If t_sndv() is interrupted by a signal before it could transfer data to the communications provider, it returns -1 with t_errno set to TSYSERR and errno set to EINTR.
If the number of bytes of data in the iov array is zero and sending of zero octets is not supported by the underlying transport service, t_sndv() returns -1 with t_errno set to TBADDATA.
The size of each TSDU or ETSDU must not exceed the limits of the transport provider as specified by the current values in the TSDU or ETSDU fields in the info argument returned by t_getinfo(3NSL).
The error TLOOK is returned for asynchronous events. It is required only for an incoming disconnect event but may be returned for other events.
On successful completion, t_sndv() returns the number of bytes accepted by the transport provider. Otherwise, -1 is returned on failure and t_errno is set to indicate the error.
Note that in synchronous mode, if more than INT_MAX bytes of data are passed in the iov array, only the first INT_MAX bytes will be passed to the provider.
If the number of bytes accepted by the communications provider is less than the number of bytes requested, this may either indicate that O_NONBLOCK is set and the communications provider is blocked due to flow control, or that O_NONBLOCK is clear and the function was interrupted by a signal.
On failure, t_errno is set to one of the following:
In the TLI interface definition, no counterpart of this routine was defined.
See attributes(7) for descriptions of the following attributes:
|ATTRIBUTE TYPE||ATTRIBUTE VALUE|
It is important to remember that the transport provider treats all users of a transport endpoint as a single user. Therefore if several processes issue concurrent t_sndv() or t_snd(3NSL) calls, then the different data may be intermixed.
Multiple sends which exceed the maximum TSDU or ETSDU size may not be discovered by XTI. In this case an implementation-dependent error will result (generated by the transport provider), perhaps on a subsequent XTI call. This error may take the form of a connection abort, a TSYSERR, a TBADDATA or a TPROTO error.
If multiple sends which exceed the maximum TSDU or ETSDU size are detected by XTI, t_sndv() fails with TBADDATA.
|August 23, 2001||OmniOS|