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Scatter-gather - readv()/writev()/preadv()/pwritev() - reads/writes a variable number of iovec structs in a single system call. Basically it reads/write each buffer sequentially from the 0th iovec to the Nth. However according to the documentation it can also return less on the readv/writev calls than was requested. I was wondering if there is a standard/best practice/elegant way to handle that situation.

If we are just handling a bunch of character buffers or similar this isn't a big deal. But one of the niceties is using scatter-gather for structs and/or discrete variables as the individual iovec items. How do you handle the situation where the readv/writev only reads/writes a portion of a struct or half of a long or something like that.

Below is some contrived code of what I am getting at:

int fd;

struct iovec iov[3];

long aLong = 74775767;
int  aInt  = 949;
char aBuff[100];  //filled from where ever

ssize_t bytesWritten = 0;
ssize_t bytesToWrite = 0;

iov[0].iov_base = &aLong;
iov[0].iov_len = sizeof(aLong);
bytesToWrite += iov[0].iov_len;

iov[1].iov_base = &aInt;
iov[1].iov_len = sizeof(aInt);
bytesToWrite += iov[1].iov_len;

iov[2].iov_base = &aBuff;
iov[2].iov_len = sizeof(aBuff);
bytesToWrite += iov[2].iov_len;

bytesWritten = writev(fd, iov, 3);

if (bytesWritten == -1)
    //handle error

if (bytesWritten < bytesToWrite)
    //how to gracefully continue?.........
share|improve this question
up vote 8 down vote accepted

Use a loop like the following to advance the partially-processed iov:

for (;;) {
    written = writev(fd, iov+cur, count-cur);
    if (written < 0) goto error;
    while (written >= iov[cur].iov_len)
        written -= iov[cur++].iov_len;
    if (cur == count) break;
    iov[cur].iov_base = (char *)iov[cur].iov_base + written;
    iov[cur].iov_len -= written;
share|improve this answer
Nice, R, that's right along the lines I was looking for. Pointer arithmetic to the rescue. Is it your opinion that short readv/writev outcomes are a common rather than exception condition, as in standard read/write and this is something which always needs to be coded for? – ValenceElectron May 3 '11 at 14:01
Yes. With pipes, sockets, or ttys in nonblocking mode, short writes are the norm. But even in other situations, they may be unlikely but still a real possibility. Even if SA_RESTART is used for the signal handler, if writev is interrupted by a signal, it will only get restarted if it had not yet written anything. If a partial write was already completed, it will return the short write. Even if you don't have any signal handlers, the process being stopped and resumed with SIGSTOP (non-blockable) and SIGCONT will have the same effects. – R.. May 3 '11 at 14:39
BTW, I just fixed my code. I had forgotten iov_base has type void * and thus arithmetic on it is invalid. The new version casts to char * to perform the arithmetic. – R.. May 3 '11 at 14:45

Vectored write will write all the data you have provided with one call to "writev" function. So byteswritten will be always be equal to total number of bytes provided as input. this is what my understanding is.

Please correct me if I am wrong

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If the medium you are writing to runs out of space before all the data is written, the bytes written will be fewer than the bytes requested. – Jonathan Leffler May 2 '11 at 5:57
For that, according to unix man pages you should get "EDQUOT" error. – Arunmu May 2 '11 at 6:02
It might be as you say in which case my question is more or less moot. Logically that would make sense but the man page doesn't seem to be definitive. In addition to Jonathan's case, on the reading end I imagine it is possible to come up short if you are reading a file that another process is writing but maybe that is not a good use of this technique. – ValenceElectron May 2 '11 at 6:22
See: pubs.opengroup.org/onlinepubs/9699919799/functions/writev.html for POSIX's rules on writev(); pwritev() is not in POSIX. POSIX does not mention EDQUOT; when there is simply no space left you should get ENOSPC. However, I suspect you are arguing that you do not get a short write indication; you get an error indication. POSIX write() page says 'If a write() requests that more bytes be written than there is room for (for example, the physical end of a medium), only as many bytes as there is room for shall be written.' followed by an example of when a short write occurs. – Jonathan Leffler May 2 '11 at 6:33
@Jason: No, it simply means that it won't proceed to iov[n+1] without having fully written iov[n]. It can still return a short read without having fully written iov[n]. – R.. May 2 '11 at 19:32

AFAICS the vectored read/write functions work the same wrt short reads/writes as the normal ones. That is, you get back the number of bytes read/written, but this might well point into the middle of a struct, just like with read()/write(). There is no guarantee that the possible "interruption points" (for lack of a better term) coincide with the vector boundaries. So unfortunately the vectored IO functions offer no more help for dealing with short reads/writes than the normal IO functions. In fact, it's more complicated since you need to map the byte count into an IO vector element and offset within the element.

Also note that the idea of using vectored IO for individual structs or data items might not work that well; the max allowed value for the iovcnt argument (IOV_MAX) is usually quite small, something like 1024 or so. So if you data is contiguous in memory, just pass it as a single element rather than artificially splitting it up.

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