/usr/include/libreoffice/uno/threadpool.h is in libreoffice-dev 1:3.5.2-2ubuntu1.
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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#include <sal/types.h>
#include <rtl/byteseq.h>
#ifdef __cplusplus
extern "C" {
#endif
/***
* Thread identifier administration.
***/
/**
Establishs an association between the current thread and the given thread identifier.
There can be only one association at a time. The association must be broken by
uno_releaseIdFromCurrentThread().
This method is in general called by a bridge, that wants to bind a remote threadId
to a new thread.
@param pThreadId a byte sequence, that contains the identifier of the current thread.
@return true, when the identifier was registered.
false, when the thread has already an identifier. The identifier was not
altered. ( This is in general a bug ).
@see uno_releaseIdFromCurrentThread()
*/
sal_Bool SAL_CALL uno_bindIdToCurrentThread( sal_Sequence *pThreadId )
SAL_THROW_EXTERN_C();
/**
Get the identifier of the current thread.
If no id has been bound for the thread before, a new one is generated and bound
to the thread.
For each call to uno_getIdOfCurrentThread(), a call to uno_releaseIdFromCurrentThread()
must be done.
@param ppThreadId [out] Contains the (acquired) ThreadId.
@see uno_releaseIdFromCurrentThread()
*/
void SAL_CALL uno_getIdOfCurrentThread( sal_Sequence **ppThreadId )
SAL_THROW_EXTERN_C();
/**
If the internal refcount drops to zero, the association betwen threadId and
thread is broken.
*/
void SAL_CALL uno_releaseIdFromCurrentThread()
SAL_THROW_EXTERN_C();
struct _uno_ThreadPool;
typedef struct _uno_ThreadPool * uno_ThreadPool;
/**
Creates a threadpool handle. Typically each remote bridge instances creates one
handle.
*/
uno_ThreadPool SAL_CALL
uno_threadpool_create() SAL_THROW_EXTERN_C();
/**
Makes the current thread known to the threadpool. This function must be
called, BEFORE uno_threadpool_enter() is called and BEFORE a job for this
thread is put into the threadpool (avoid a race between this thread and
an incoming request/reply).
For every call to uno_threadpool_attach, a corrosponding call to
uno_threadpool_detach must be done.
@param hPool The bridge threadpool handle previously created by uno_threadpool_create.
*/
void SAL_CALL
uno_threadpool_attach( uno_ThreadPool hPool ) SAL_THROW_EXTERN_C();
/**
This method is called to wait for a reply of a previously sent request. This is a
blocking method. uno_threadpool_attach() must have been called before.
@param hPool the handle that was previously created by uno_threadpool_create().
@param ppJob [out] the pointer, that was given by uno_threadpool_putJob
0, when uno_threadpool_dispose() was the reason to fall off from threadpool.
@see uno_threadpool_dispose()
**/
void SAL_CALL
uno_threadpool_enter( uno_ThreadPool hPool , void **ppJob )
SAL_THROW_EXTERN_C();
/**
Detaches the current thread from the threadpool. Must be called for
every call to uno_threadpool_attach.
*/
void SAL_CALL
uno_threadpool_detach( uno_ThreadPool hPool ) SAL_THROW_EXTERN_C();
/**
Puts a job into the pool. A job may eiter be a request or a reply
(replies have a 0 in the doRequest parameter). This function is non-blocking.
A request may either be synchronous or asynchronous.
If the request is synchronous, it is first looked up,
if there exists a handle with the given
identifier. If this is the case, the thread is woken up and the doRequest
function is called with the given pJob. If no handle exists,
a new thread is created and the given threadId is bound to the new thread.
If the request is asynchronous, it is put into the queue of asynchronous
requests for the current threadid. The requests are always executed in a new
thread, even if the thread with the given id is waiting in the pool. No id is bound
to the newly created thread. The responsibilty is left to the bridge ( if it
wishes to bind a name).
If pJob is a reply, there MUST be a thread with the given threadId waiting
for this reply.
@param pThreadId The Id of the thread, that initialized this request. (In general a
remote threadid).
@param pJob The argument, that doRequest will get or that will be returned by
uno_threadpool_enter().
@param doRequest The function, that shall be called to execute the request.
0 if pJob is a reply.
@param bIsOneway True, if the request is asynchrons. False, if it is synchronous.
Set to sal_False, if pJob is a reply.
*/
void SAL_CALL
uno_threadpool_putJob(
uno_ThreadPool hPool,
sal_Sequence *pThreadId,
void *pJob,
void ( SAL_CALL * doRequest ) ( void *pThreadSpecificData ),
sal_Bool bIsOneway ) SAL_THROW_EXTERN_C();
/**
All threads, that are waiting on the hPool handle, are forced out of the pool.
The threads waiting with uno_threadpool_enter() will return with *ppJob == 0
Later calls to uno_threadpool_enter() using the hPool handle will also
return immeadiatly with *ppJob == 0.
@param hPool The handle to be disposed.
In case, hPool is 0, this function joins on all threads created
by the threadpool administration. This may e.g. used to ensure, that
no threads are inside the cppu library anymore, in case it needs to get
unloaded.
This function is called i.e. by a bridge, that is forced to dispose itself.
*/
void SAL_CALL
uno_threadpool_dispose( uno_ThreadPool hPool ) SAL_THROW_EXTERN_C();
/** Releases the previously with uno_threadpool_create() created handle.
The handle thus becomes invalid. It is an error to use the handle after
uno_threadpool_destroy().
@see uno_threadpool_create()
*/
void SAL_CALL
uno_threadpool_destroy( uno_ThreadPool hPool ) SAL_THROW_EXTERN_C();
#ifdef __cplusplus
}
#endif
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