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README.multithreading
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README.multithreading
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Multithreading
==============
Libnfs supports multithreading using the pthread API on linux/unix and using
the native API for Windows.
By default libnfs is beuilt without pthread support to avoid the overhead
for locking, but pthread support, and thus support for multithreading, can be
configured using --enable-pthread
$ ./configure --prefix=/usr --enable-examples --enable-pthread
or, for cmake
$ cmake -DENABLE_MULTITHREADING=yes ..
The process to use multithreading from your application is:
1, nfs_init_context() to create an NFS context. This context defaults to
not (yet) be multithreading aware.
2, nfs_mount(...) to mount the NFS share.
IF the share mounted successfully we can now turn on multithreading for all I/O
to the share:
3, nfs_mt_service_thread_start(nfs)
this starts a dedicated thread to manage all socket
I/O and queue management and also flags the context
to be multithreading ready.
If this returns successfully you can now start using
this context from separate threads in your
application. But remember, only the SYNC API
is supported from this point.
... use the nfs context from all your threads ...
Once the application is finished and ready to terminate, first close all other
threads, or make sure that they will NOT perform any further I/O to the nfs
context. Wait until all in-flight I/O has stopped.
Then call nfs_mt_service_thread_stop(nfs) to terminate the service thread and
disable the multithreading support.
See examples/nfs-pthreads-*.c for examples on how to use multithreading.
Porting
-------
The multithreading support is abstracted out into two separate files to make
it easier to add other threading APIs instead of pthreads.
include/libnfs-multithreading.h and lib/multithreading.c
Multithreading requires two separate defines to be present.
The global one is HAVE_MULTITHREADING which will activate general
multithreading support in the library and the second one that enables a specific
implementation of threading.
HAVE_PTHREAD is defined when you want to use libpthread.
For other threading APIs you will need a new define HAVE_OTHER_API
to select it.
include/libnfs-multithreading.h
-------------------------------
This file consists of two parts.
The first part is creating typedefs for a tread, a mutex and a semaphore.
When porting to a different threads API, add a new section that adds suitable
typedefs for thread/mutex/semaphore.
The second part is the wrapper API for the libnfs threading abstractions and
should not need to be changed.
lib/multithreading.c
--------------------
This file contains the actual abstraction used for multithreading.
When porting to a different threads API you will need to create replacement
functions for :
nfs_mt_service_thread() : This is the service thread that is responsible
for performing all socket I/O.
nfs_mt_service_thread_start()
nfs_mt_service_thread_stop()
: Functions to start/stop the service thread.
nfs_mt_mutex_init()
nfs_mt_mutex_destroy()
nfs_mt_mutex_lock()
nfs_mt_mutex_unlock() : Wrappers that implement the 4 basic mutex calls.
nfs_mt_sem_init()
nfs_mt_sem_destroy()
nfs_mt_sem_post()
nfs_mt_sem_wait() : Wrappers that implement the 4 basic semaphore calls.
nfs_mt_get_tid() : Get an identifier for the current thread.
TODO
----
* Optimization: have the service thread just read the PDU from the socket and
add it to a new queue. Then have a pool of threads to read from this queue and
unmarshall the pdu's in concurrently.