Per the standards, the for loop you mentioned is not a valid implementation of
writev, for several reasons:
- The loop could fail to finish writing one iov before proceeding to the next, in the event of a short write - but this could be worked around by making the loop more elaborate.
- The loop could have incorrect behavior with respect to atomicity for pipes: if the total write length is smaller than
PIPE_BUF, the pipe write is required to be atomic, but the loop would break the atomicity requirement. This issue cannot be worked around except by moving all the iov entries into a single buffer before writing when the total length is at most
- The loop might have cases where it could result in blocking, where the single
writev call would be required to perform a partial write without blocking. As far as I know, this issue would be impossible to work around in the general case.
- Possibly other reasons I haven't thought of.
I'm not sure about point #3, but it definitely exists in the opposite direction, when reading. Calling
read in a loop could block if a terminal has some data (shorter than the total iov length) available followed by an EOF indicator; calling
readv should return immediately with a partial read in this case. However, due to a bug in Linux,
readv on terminals is actually implemented as a
read loop in kernelspace, and it does exhibit this blocking bug. I had to work around this bug in implementing musl's stdio:
To answer the last part of your question:
writev write everything to file in a single I/O call?
In all cases, a conformant
writev implementation will be a single syscall. Getting down to how it's implemented on Linux: for ordinary files and for most devices, the underlying file driver has methods that implement iov-style io directly, without any sort of internal loop. But the terminal driver on Linux is highly outdated and lacks the modern io methods, causing the kernel to fallback to a write/read loop for
readv when operating on a terminal.