3 * - By thePowersGang (John Hodge)
6 * - Implements the select() system call (and supporting code)
8 * TODO: Remove malloc for read/write queues
15 #include <semaphore.h>
21 #define NUM_THREADS_PER_ALLOC 4
24 typedef struct sVFS_SelectListEnt tVFS_SelectListEnt;
27 struct sVFS_SelectListEnt
29 tVFS_SelectListEnt *Next;
30 tThread *Threads[NUM_THREADS_PER_ALLOC];
33 // NOTE: Typedef is in vfs.h
34 struct sVFS_SelectList
37 tVFS_SelectListEnt FirstEnt;
41 // int VFS_SelectNode(tVFS_Node *Node, enum eVFS_SelectTypes Type, tTime *Timeout);
42 // int VFS_Select(int MaxHandle, fd_set *ReadHandles, fd_set *WriteHandles, fd_set *ErrHandles, tTime *Timeout, Uint32 ExtraEvents, BOOL IsKernel);
43 // int VFS_MarkFull(tVFS_Node *Node, BOOL IsBufferFull);
44 // int VFS_MarkAvaliable(tVFS_Node *Node, BOOL IsDataAvaliable);
45 // int VFS_MarkError(tVFS_Node *Node, BOOL IsErrorState);
46 int VFS_int_Select_GetType(int Type, tVFS_Node *Node, tVFS_SelectList ***List, int **Flag, int *WantedFlag, int *MaxAllowed);
47 int VFS_int_Select_Register(tThread *Thread, int MaxHandle, fd_set *Handles, int Type, BOOL IsKernel);
48 int VFS_int_Select_Deregister(tThread *Thread, int MaxHandle, fd_set *Handles, int Type, BOOL IsKernel);
49 int VFS_int_Select_AddThread(tVFS_SelectList *List, tThread *Thread, int MaxAllowed);
50 void VFS_int_Select_RemThread(tVFS_SelectList *List, tThread *Thread);
51 void VFS_int_Select_SignalAll(tVFS_SelectList *List);
56 int VFS_SelectNode(tVFS_Node *Node, int TypeFlags, tTime *Timeout, const char *Name)
58 tThread *thisthread = Proc_GetCurThread();
61 ENTER("pNode iTypeFlags pTimeout sName", Node, TypeFlags, Timeout, Name);
64 for( type = 0; type < 3; type ++ )
66 tVFS_SelectList **list;
67 int *flag, wanted, maxAllowed;
68 if( !(TypeFlags & (1 << type)) ) continue;
69 if( VFS_int_Select_GetType(type, Node, &list, &flag, &wanted, &maxAllowed) ) {
75 if( !*list ) *list = calloc(1, sizeof(tVFS_SelectList));
77 VFS_int_Select_AddThread(*list, thisthread, maxAllowed);
80 VFS_int_Select_RemThread(*list, thisthread);
89 LOG("Semaphore_Wait()");
90 // TODO: Actual timeout
91 Threads_WaitEvents( THREAD_EVENT_VFS|THREAD_EVENT_SIGNAL );
93 else if( *Timeout > 0 )
95 tTimer *t = Time_AllocateTimer(NULL, NULL);
97 Threads_ClearEvent( THREAD_EVENT_TIMER );
98 // TODO: Convert *Timeout?
99 LOG("Timeout %lli ms", *Timeout);
100 Time_ScheduleTimer( t, *Timeout );
101 // Wait for the timer or a VFS event
102 Threads_WaitEvents( THREAD_EVENT_VFS|THREAD_EVENT_TIMER|THREAD_EVENT_SIGNAL );
108 for( type = 0; type < 3; type ++ )
110 tVFS_SelectList **list;
111 int *flag, wanted, maxAllowed;
112 if( !(TypeFlags & (1 << type)) ) continue;
113 VFS_int_Select_GetType(type, Node, &list, &flag, &wanted, &maxAllowed);
114 LOG("VFS_int_Select_RemThread()");
116 VFS_int_Select_RemThread(*list, thisthread);
117 ret = ret || *flag == wanted;
120 Threads_ClearEvent( THREAD_EVENT_VFS );
121 Threads_ClearEvent( THREAD_EVENT_TIMER );
127 int VFS_Select(int MaxHandle, fd_set *ReadHandles, fd_set *WriteHandles, fd_set *ErrHandles, tTime *Timeout, Uint32 ExtraEvents, BOOL IsKernel)
129 tThread *thisthread = Proc_GetCurThread();
132 ENTER("iMaxHandle pReadHandles pWriteHandles pErrHandles pTimeout xExtraEvents bIsKernel",
133 MaxHandle, ReadHandles, WriteHandles, ErrHandles, Timeout, ExtraEvents, IsKernel);
135 // Notes: The idea is to make sure we only enter wait (Threads_WaitEvents)
136 // if we are going to be woken up (either by an event at a later time,
137 // or by an event that happened while or before we were registering).
138 // Hence, register must happen _before_ we check the state flag
139 // (See VFS_int_Select_Register), that way either we pick up the flag,
140 // or the semaphore is incremeneted (or both, but never none)
142 // Register with nodes
144 LOG(" - ReadHandles[0] = %x", ReadHandles->flags[0]);
145 ret = VFS_int_Select_Register(thisthread, MaxHandle, ReadHandles, 0, IsKernel);
146 ret += VFS_int_Select_Register(thisthread, MaxHandle, WriteHandles, 1, IsKernel);
147 ret += VFS_int_Select_Register(thisthread, MaxHandle, ErrHandles, 2, IsKernel);
149 LOG("Register ret = %i", ret);
151 // If there were events waiting, de-register and return
154 LOG(" - ReadHandles[0] = %x", ReadHandles->flags[0]);
155 ret = VFS_int_Select_Deregister(thisthread, MaxHandle, ReadHandles, 0, IsKernel);
156 ret += VFS_int_Select_Deregister(thisthread, MaxHandle, WriteHandles, 1, IsKernel);
157 ret += VFS_int_Select_Deregister(thisthread, MaxHandle, ErrHandles, 2, IsKernel);
158 LOG(" - ReadHandles[0] = %x", ReadHandles->flags[0]);
166 LOG("Semaphore_Wait()");
167 // TODO: Actual timeout
168 Threads_WaitEvents( THREAD_EVENT_VFS|THREAD_EVENT_SIGNAL|ExtraEvents );
170 else if( *Timeout > 0 )
172 tTimer *t = Time_AllocateTimer(NULL, NULL);
174 Threads_ClearEvent( THREAD_EVENT_TIMER );
175 // TODO: Convert *Timeout?
176 LOG("Timeout %lli ms", *Timeout);
177 Time_ScheduleTimer( t, *Timeout );
178 // Wait for the timer or a VFS event
179 Threads_WaitEvents( THREAD_EVENT_VFS|THREAD_EVENT_TIMER|ExtraEvents );
182 // Fill output (modify *Handles)
183 // - Also, de-register
184 ret = VFS_int_Select_Deregister(thisthread, MaxHandle, ReadHandles, 0, IsKernel);
185 ret += VFS_int_Select_Deregister(thisthread, MaxHandle, WriteHandles, 1, IsKernel);
186 ret += VFS_int_Select_Deregister(thisthread, MaxHandle, ErrHandles, 2, IsKernel);
188 Threads_ClearEvent( THREAD_EVENT_VFS );
189 Threads_ClearEvent( THREAD_EVENT_TIMER );
195 // Mark a node as having data ready for reading
196 int VFS_MarkAvaliable(tVFS_Node *Node, BOOL IsDataAvaliable)
198 ENTER("pNode bIsDataAvaliable", Node, IsDataAvaliable);
199 Node->DataAvaliable = !!IsDataAvaliable;
200 if( Node->DataAvaliable )
201 VFS_int_Select_SignalAll(Node->ReadThreads);
206 // Mark a node as having a full buffer
207 int VFS_MarkFull(tVFS_Node *Node, BOOL IsBufferFull)
209 ENTER("pNode bIsBufferFull", Node, IsBufferFull);
210 Node->BufferFull = !!IsBufferFull;
211 if( !Node->BufferFull )
212 VFS_int_Select_SignalAll(Node->WriteThreads);
217 // Mark a node as errored
218 int VFS_MarkError(tVFS_Node *Node, BOOL IsErrorState)
220 ENTER("pNode bIsErrorState", Node, IsErrorState);
221 Node->ErrorOccurred = !!IsErrorState;
222 if( Node->ErrorOccurred )
223 VFS_int_Select_SignalAll(Node->ErrorThreads);
229 int VFS_int_Select_GetType(int Type, tVFS_Node *Node, tVFS_SelectList ***List, int **Flag, int *WantedFlag, int *MaxAllowed)
231 // Get the type of the listen
235 if(List) *List = &Node->ReadThreads;
236 if(Flag) *Flag = &Node->DataAvaliable;
237 if(WantedFlag) *WantedFlag = 1;
238 if(MaxAllowed) *MaxAllowed = 1; // Max of 1 for read
241 if(List) *List = &Node->WriteThreads;
242 if(Flag) *Flag = &Node->BufferFull;
243 if(WantedFlag) *WantedFlag = 0;
244 if(MaxAllowed) *MaxAllowed = 1; // Max of 1 for write
247 if(List) *List = &Node->ErrorThreads;
248 if(Flag) *Flag = &Node->ErrorOccurred;
249 if(WantedFlag) *WantedFlag = 1;
250 if(MaxAllowed) *MaxAllowed = -1; // No max for error listeners
253 Log_Error("VFS", "VFS_int_Select_GetType: BUG CHECK, Unknown Type %i", Type);
260 * \return Number of files with an action
262 int VFS_int_Select_Register(tThread *Thread, int MaxHandle, fd_set *Handles, int Type, BOOL IsKernel)
264 int i, numFlagged = 0;
265 tVFS_SelectList **list;
266 int *flag, wantedFlagValue;
269 if( !Handles ) return 0;
271 ENTER("pThread iMaxHandle pHandles iType iIsKernel", Thread, MaxHandle, Handles, Type, IsKernel);
273 for( i = 0; i < MaxHandle; i ++ )
277 // Is the descriptor set
278 if( !FD_ISSET(i, Handles) ) continue;
281 handle = VFS_GetHandle( i | (IsKernel?VFS_KERNEL_FLAG:0) );
282 // Is the handle valid?
283 if( !handle || !handle->Node )
285 if( Type == 2 ) { // Bad FD counts as an error
294 // Get the type of the listen
295 if( VFS_int_Select_GetType(Type, handle->Node, &list, &flag, &wantedFlagValue, &maxAllowed) ) {
302 *list = calloc(1, sizeof(tVFS_SelectList));
306 if( VFS_int_Select_AddThread(*list, Thread, maxAllowed ) )
308 // Oops, error (or just no space)
312 // Check for the flag
313 if( !!*flag == !!wantedFlagValue ) {
314 LOG(" %i == want %i", !!*flag, !!wantedFlagValue);
319 LEAVE('i', numFlagged);
324 * \return Number of files with an action
326 int VFS_int_Select_Deregister(tThread *Thread, int MaxHandle, fd_set *Handles, int Type, BOOL IsKernel)
328 int i, numFlagged = 0;
329 tVFS_SelectList **list;
330 int *flag, wantedFlagValue;
332 if( !Handles ) return 0;
334 ENTER("pThread iMaxHandle pHandles iType iIsKernel", Thread, MaxHandle, Handles, Type, IsKernel);
336 for( i = 0; i < MaxHandle; i ++ )
340 // Is the descriptor set
341 if( !FD_ISSET(i, Handles) ) continue;
344 handle = VFS_GetHandle( i | (IsKernel?VFS_KERNEL_FLAG:0) );
345 // Is the handle valid?
346 if( !handle || !handle->Node )
348 if( Type == 2 ) { // Bad FD counts as an error
357 // Get the type of the listen
358 if( VFS_int_Select_GetType(Type, handle->Node, &list, &flag, &wantedFlagValue, NULL) ) {
364 VFS_int_Select_RemThread(*list, Thread );
366 // Check for the flag
367 if( !!*flag == !!wantedFlagValue ) {
369 LOG(" %i == want %i", !!*flag, !!wantedFlagValue);
377 LEAVE('i', numFlagged);
383 * \return Boolean failure
385 int VFS_int_Select_AddThread(tVFS_SelectList *List, tThread *Thread, int MaxAllowed)
388 tVFS_SelectListEnt *block, *prev;
390 ENTER("pList pThread iMaxAllowed", List, Thread, MaxAllowed);
392 // Lock to avoid concurrency issues
393 Mutex_Acquire(&List->Lock);
395 block = &List->FirstEnt;
397 // Look for free space
400 for( i = 0; i < NUM_THREADS_PER_ALLOC; i ++ )
402 if( block->Threads[i] == NULL )
404 block->Threads[i] = Thread;
405 Mutex_Release(&List->Lock);
410 if( MaxAllowed && count >= MaxAllowed ) {
411 Mutex_Release(&List->Lock);
424 block = malloc( sizeof(tVFS_SelectListEnt) );
426 Log_Warning("VFS", "VFS_int_Select_AddThread: malloc() failed");
427 Mutex_Release(&List->Lock);
431 block->Threads[0] = Thread;
432 for( i = 1; i < NUM_THREADS_PER_ALLOC; i ++ )
434 block->Threads[i] = NULL;
441 Mutex_Release(&List->Lock);
447 void VFS_int_Select_RemThread(tVFS_SelectList *List, tThread *Thread)
449 tVFS_SelectListEnt *block, *prev = NULL;
451 ENTER("pList pThread", List, Thread);
453 // Lock to avoid concurrency issues
454 Mutex_Acquire(&List->Lock);
456 block = &List->FirstEnt;
458 // Look for the thread
461 for( int i = 0; i < NUM_THREADS_PER_ALLOC; i ++ )
463 if( block->Threads[i] == Thread )
465 block->Threads[i] = NULL;
467 // Check if this block is empty
468 if( block != &List->FirstEnt )
470 for( i = 0; i < NUM_THREADS_PER_ALLOC; i ++ )
471 if( block->Threads[i] )
474 if( i == NUM_THREADS_PER_ALLOC ) {
475 LOG("Deleting block");
476 prev->Next = block->Next;
479 //TODO: If not empty, check if it can be merged downwards
482 Mutex_Release(&List->Lock);
492 // Not on list, is this an error?
494 Mutex_Release(&List->Lock);
501 * \brief Signal all threads on a list
503 void VFS_int_Select_SignalAll(tVFS_SelectList *List)
506 tVFS_SelectListEnt *block;
510 ENTER("pList", List);
512 // Lock to avoid concurrency issues
513 Mutex_Acquire(&List->Lock);
515 block = &List->FirstEnt;
517 // Look for the thread
520 for( i = 0; i < NUM_THREADS_PER_ALLOC; i ++ )
522 if( block->Threads[i] )
524 LOG("block(%p)->Threads[%i] = %p", block, i, block->Threads[i]);
525 Threads_PostEvent( block->Threads[i], THREAD_EVENT_VFS );
532 Mutex_Release(&List->Lock);