Safe Haskell | None |
---|---|
Language | Haskell98 |
Handle-based versions of some of the functions exported by Network.Socket.SendFile.
Synopsis
- type ByteCount = Integer
- type Offset = Integer
- data Iter
- runIter :: IO Iter -> IO Int64
- sendFile :: Socket -> Handle -> IO ()
- sendFileIterWith :: (IO Iter -> IO a) -> Socket -> Handle -> ByteCount -> IO a
- sendFile' :: Socket -> Handle -> Offset -> ByteCount -> IO ()
- sendFileIterWith' :: (IO Iter -> IO a) -> Socket -> Handle -> ByteCount -> Offset -> ByteCount -> IO a
Documentation
An iteratee for sendfile
In general, a whole file is not sent by a single call to sendfile(), but a series of calls which send successive pieces.
The high-level API in this sendfile library has calls which will send the entire file (or an entire requested offset+length), before returning.
However, there are instances where you want to be a bit more involved in the sending loop. For example, if you want to tickle a timeout after each chunk is sent or update a progress bar.
The Iter
type gives you that power with out requiring you to
manage all the low-level details of the sendfile loop. The
interface is simple and consistant across all platforms.
A call to sendfile() can result in three different states:
- the requested number of bytes for that iteration was sent successfully, there are more bytes left to send.
- some (possibly 0) bytes were sent, but the file descriptor would now block if more bytes were written. There are more bytes left to send.
- All the bytes were sent, and there is nothing left to send.
We handle these three cases by using a type with three constructors:
data Iter = Sent Int64 (IO Iter) | WouldBlock Int64 Fd (IO Iter) | Done Int64
All three constructors provide an Int64
which represents the
number of bytes sent for that particular iteration. (Not the total
byte count).
The Sent
and WouldBlock
constructors provide IO
Iter
as their
final argument. Running this IO action will send the next block of
data.
The WouldBlock
constructor also provides the Fd
for the output
socket. You should not send anymore data until the Fd
would not
block. The easiest way to do that is to use threadWaitWrite
to
suspend the thread until the Fd
is available.
A very simple function to drive the Iter might look like:
runIter :: IO Iter -> IO () runIter iter = do r <- iter case r of (Done _n) -> return () (Sent _n cont) -> runIter cont (WouldBlock _n fd cont) -> do threadWaitWrite fd runIter cont
You would use it as the first argument to a *IterWith function, e.g.
sendFileIterWith runIter outputSocket "/path/to/file" 2^16
The runIter
function provided by this module is similar, but also returns the total number of bytes sent.
NOTE: You must not use the Fd
or the IO
Iter
after the call
to *IterWith has returned. When the *IterWith functions return,
the file descriptors may be closed due to finalizers running.
Sent Int64 (IO Iter) | number of bytes sent this pass and a continuation to send more |
WouldBlock Int64 Fd (IO Iter) | number of bytes sent, Fd that blocked, continuation to send more. NOTE: The Fd should not be used outside the running of the Iter as it may be freed when the Iter is done |
Done Int64 | number of bytes sent, no more to send |
runIter :: IO Iter -> IO Int64 Source #
A simple function to drive the *IterWith functions. It returns the total number of bytes sent.