/* Asynchronous X property getting hack */ /* * Copyright (C) 2002 Havoc Pennington * Copyright (C) 1986, 1998 The Open Group * * Permission to use, copy, modify, distribute, and sell this software * and its documentation for any purpose is hereby granted without * fee, provided that the above copyright notice appear in all copies * and that both that copyright notice and this permission notice * appear in supporting documentation. * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name of The Open Group shall not be * used in advertising or otherwise to promote the sale, use or other dealings * in this Software without prior written authorization from The Open Group. */ #include #undef DEBUG_SPEW #ifdef DEBUG_SPEW #include #endif #include "async-getprop.h" #define NEED_REPLIES #include #ifndef NULL #define NULL ((void*)0) #endif typedef struct _ListNode ListNode; typedef struct _AgPerDisplayData AgPerDisplayData; struct _ListNode { ListNode *next; }; struct _AgGetPropertyTask { ListNode node; AgPerDisplayData *dd; Window window; Atom property; unsigned long request_seq; int error; Atom actual_type; int actual_format; unsigned long n_items; unsigned long bytes_after; unsigned char *data; Bool have_reply; }; struct _AgPerDisplayData { ListNode node; _XAsyncHandler async; Display *display; ListNode *pending_tasks; ListNode *pending_tasks_tail; ListNode *completed_tasks; ListNode *completed_tasks_tail; int n_tasks_pending; int n_tasks_completed; }; static ListNode *display_datas = NULL; static ListNode *display_datas_tail = NULL; static void append_to_list (ListNode **head, ListNode **tail, ListNode *task) { task->next = NULL; if (*tail == NULL) { assert (*head == NULL); *head = task; *tail = task; } else { (*tail)->next = task; *tail = task; } } static void remove_from_list (ListNode **head, ListNode **tail, ListNode *task) { ListNode *prev; ListNode *node; prev = NULL; node = *head; while (node != NULL) { if (node == task) { if (prev) prev->next = node->next; else *head = node->next; if (node == *tail) *tail = prev; break; } prev = node; node = node->next; } /* can't remove what's not there */ assert (node != NULL); node->next = NULL; } static void move_to_completed (AgPerDisplayData *dd, AgGetPropertyTask *task) { remove_from_list (&dd->pending_tasks, &dd->pending_tasks_tail, &task->node); append_to_list (&dd->completed_tasks, &dd->completed_tasks_tail, &task->node); dd->n_tasks_pending -= 1; dd->n_tasks_completed += 1; } static AgGetPropertyTask* find_pending_by_request_sequence (AgPerDisplayData *dd, unsigned long request_seq) { ListNode *node; /* if the sequence is after our last pending task, we * aren't going to find a match */ { AgGetPropertyTask *task = (AgGetPropertyTask*) dd->pending_tasks_tail; if (task != NULL) { if (task->request_seq < request_seq) return NULL; else if (task->request_seq == request_seq) return task; /* why not check this */ } } /* Generally we should get replies in the order we sent * requests, so we should usually be using the task * at the head of the list, if we use any task at all. * I'm not sure this is 100% guaranteed, if it is, * it would be a big speedup. */ node = dd->pending_tasks; while (node != NULL) { AgGetPropertyTask *task = (AgGetPropertyTask*) node; if (task->request_seq == request_seq) return task; node = node->next; } return NULL; } static Bool async_get_property_handler (Display *dpy, xReply *rep, char *buf, int len, XPointer data) { xGetPropertyReply replbuf; xGetPropertyReply *reply; AgGetPropertyTask *task; AgPerDisplayData *dd; int bytes_read; dd = (AgPerDisplayData*) data; #if 0 printf ("%s: seeing request seq %ld buflen %d\n", __FUNCTION__, dpy->last_request_read, len); #endif task = find_pending_by_request_sequence (dd, dpy->last_request_read); if (task == NULL) return False; assert (dpy->last_request_read == task->request_seq); task->have_reply = True; move_to_completed (dd, task); /* read bytes so far */ bytes_read = SIZEOF (xReply); if (rep->generic.type == X_Error) { xError errbuf; task->error = rep->error.errorCode; #ifdef DEBUG_SPEW printf ("%s: error code = %d (ignoring error, eating %d bytes, generic.length = %ld)\n", __FUNCTION__, task->error, (SIZEOF (xError) - bytes_read), rep->generic.length); #endif /* We return True (meaning we consumed the reply) * because otherwise it would invoke the X error handler, * and an async API is useless if you have to synchronously * trap X errors. Also GetProperty can always fail, pretty * much, so trapping errors is always what you want. * * We have to eat all the error reply data here. * (kind of a charade as we know sizeof(xError) == sizeof(xReply)) * * Passing discard = True seems to break things; I don't understand * why, because there should be no extra data in an error reply, * right? */ _XGetAsyncReply (dpy, (char *)&errbuf, rep, buf, len, (SIZEOF (xError) - bytes_read) >> 2, /* in 32-bit words */ False); /* really seems like it should be True */ return True; } #ifdef DEBUG_SPEW printf ("%s: already read %d bytes reading %d more for total of %d; generic.length = %ld\n", __FUNCTION__, bytes_read, (SIZEOF (xGetPropertyReply) - bytes_read) >> 2, SIZEOF (xGetPropertyReply), rep->generic.length); #endif /* (kind of a silly as we know sizeof(xGetPropertyReply) == sizeof(xReply)) */ reply = (xGetPropertyReply *) _XGetAsyncReply (dpy, (char *)&replbuf, rep, buf, len, (SIZEOF (xGetPropertyReply) - bytes_read) >> 2, /* in 32-bit words */ False); /* False means expecting more data to follow, * don't eat the rest of the reply */ bytes_read = SIZEOF (xGetPropertyReply); #ifdef DEBUG_SPEW printf ("%s: have reply propertyType = %ld format = %d n_items = %ld\n", __FUNCTION__, reply->propertyType, reply->format, reply->nItems); #endif assert (task->data == NULL); /* This is all copied from XGetWindowProperty(). Not sure we should * LockDisplay(). Not sure I'm passing the right args to * XGetAsyncData(). Not sure about a lot of things. */ /* LockDisplay (dpy); */ if (reply->propertyType != None) { long nbytes, netbytes; /* this alignment macro from orbit2 */ #define ALIGN_VALUE(this, boundary) \ (( ((unsigned long)(this)) + (((unsigned long)(boundary)) -1)) & (~(((unsigned long)(boundary))-1))) switch (reply->format) { /* * One extra byte is malloced than is needed to contain the property * data, but this last byte is null terminated and convenient for * returning string properties, so the client doesn't then have to * recopy the string to make it null terminated. */ case 8: nbytes = reply->nItems; /* there's padding to word boundary */ netbytes = ALIGN_VALUE (nbytes, 4); if (nbytes + 1 > 0 && (task->data = (unsigned char *) Xmalloc ((unsigned)nbytes + 1))) { #ifdef DEBUG_SPEW printf ("%s: already read %d bytes using %ld, more eating %ld more\n", __FUNCTION__, bytes_read, nbytes, netbytes); #endif /* _XReadPad (dpy, (char *) task->data, netbytes); */ _XGetAsyncData (dpy, task->data, buf, len, bytes_read, nbytes, netbytes); } break; case 16: nbytes = reply->nItems * sizeof (short); netbytes = reply->nItems << 1; netbytes = ALIGN_VALUE (netbytes, 4); /* align to word boundary */ if (nbytes + 1 > 0 && (task->data = (unsigned char *) Xmalloc ((unsigned)nbytes + 1))) { #ifdef DEBUG_SPEW printf ("%s: already read %d bytes using %ld more, eating %ld more\n", __FUNCTION__, bytes_read, nbytes, netbytes); #endif /* _XRead16Pad (dpy, (short *) task->data, netbytes); */ _XGetAsyncData (dpy, task->data, buf, len, bytes_read, nbytes, netbytes); } break; case 32: nbytes = reply->nItems * sizeof (long); netbytes = reply->nItems << 2; if (nbytes + 1 > 0 && (task->data = (unsigned char *) Xmalloc ((unsigned)nbytes + 1))) { #ifdef DEBUG_SPEW printf ("%s: already read %d bytes using %ld more, eating %ld more\n", __FUNCTION__, bytes_read, nbytes, netbytes); #endif /* _XRead32 (dpy, (long *) task->data, netbytes); */ _XGetAsyncData (dpy, task->data, buf, len, bytes_read, nbytes, netbytes); } break; default: /* * This part of the code should never be reached. If it is, * the server sent back a property with an invalid format. * This is a BadImplementation error. * * However this async GetProperty API doesn't report errors * via the standard X mechanism, so don't do anything about * it, other than store it in task->error. */ { #if 0 xError error; #endif task->error = BadImplementation; #if 0 error.sequenceNumber = task->request_seq; error.type = X_Error; error.majorCode = X_GetProperty; error.minorCode = 0; error.errorCode = BadImplementation; _XError (dpy, &error); #endif } nbytes = netbytes = 0L; break; } if (task->data == NULL) { task->error = BadAlloc; #ifdef DEBUG_SPEW printf ("%s: already read %d bytes eating %ld\n", __FUNCTION__, bytes_read, netbytes); #endif /* _XEatData (dpy, (unsigned long) netbytes); */ _XGetAsyncData (dpy, NULL, buf, len, bytes_read, 0, netbytes); /* UnlockDisplay (dpy); */ return BadAlloc; /* not Success */ } (task->data)[nbytes] = '\0'; } #ifdef DEBUG_SPEW printf ("%s: have data\n", __FUNCTION__); #endif task->actual_type = reply->propertyType; task->actual_format = reply->format; task->n_items = reply->nItems; task->bytes_after = reply->bytesAfter; /* UnlockDisplay (dpy); */ return True; } static AgPerDisplayData* get_display_data (Display *display, Bool create) { ListNode *node; AgPerDisplayData *dd; node = display_datas; while (node != NULL) { dd = (AgPerDisplayData*) node; if (dd->display == display) return dd; node = node->next; } if (!create) return NULL; dd = Xcalloc (1, sizeof (AgPerDisplayData)); if (dd == NULL) return NULL; dd->display = display; dd->async.next = display->async_handlers; dd->async.handler = async_get_property_handler; dd->async.data = (XPointer) dd; dd->display->async_handlers = &dd->async; append_to_list (&display_datas, &display_datas_tail, &dd->node); return dd; } static void maybe_free_display_data (AgPerDisplayData *dd) { if (dd->pending_tasks == NULL && dd->completed_tasks == NULL) { DeqAsyncHandler (dd->display, &dd->async); remove_from_list (&display_datas, &display_datas_tail, &dd->node); XFree (dd); } } AgGetPropertyTask* ag_task_create (Display *dpy, Window window, Atom property, long offset, long length, Bool delete, Atom req_type) { AgGetPropertyTask *task; xGetPropertyReq *req; xError error; AgPerDisplayData *dd; /* Fire up our request */ LockDisplay (dpy); dd = get_display_data (dpy, True); if (dd == NULL) { UnlockDisplay (dpy); return NULL; } GetReq (GetProperty, req); req->window = window; req->property = property; req->type = req_type; req->delete = delete; req->longOffset = offset; req->longLength = length; error.sequenceNumber = dpy->request; /* Queue up our async task */ task = Xcalloc (1, sizeof (AgGetPropertyTask)); if (task == NULL) { UnlockDisplay (dpy); return NULL; } task->dd = dd; task->window = window; task->property = property; task->request_seq = dpy->request; append_to_list (&dd->pending_tasks, &dd->pending_tasks_tail, &task->node); dd->n_tasks_pending += 1; UnlockDisplay (dpy); SyncHandle (); return task; } static void free_task (AgGetPropertyTask *task) { remove_from_list (&task->dd->completed_tasks, &task->dd->completed_tasks_tail, &task->node); task->dd->n_tasks_completed -= 1; maybe_free_display_data (task->dd); XFree (task); } Status ag_task_get_reply_and_free (AgGetPropertyTask *task, Atom *actual_type, int *actual_format, unsigned long *nitems, unsigned long *bytesafter, unsigned char **prop) { Display *dpy; *prop = NULL; dpy = task->dd->display; /* Xlib macros require a variable named "dpy" */ if (task->error != Success) { Status s = task->error; free_task (task); return s; } if (!task->have_reply) { free_task (task); return BadAlloc; /* not Success */ } *actual_type = task->actual_type; *actual_format = task->actual_format; *nitems = task->n_items; *bytesafter = task->bytes_after; *prop = task->data; /* pass out ownership of task->data */ SyncHandle (); free_task (task); return Success; } Bool ag_task_have_reply (AgGetPropertyTask *task) { return task->have_reply; } Atom ag_task_get_property (AgGetPropertyTask *task) { return task->property; } Window ag_task_get_window (AgGetPropertyTask *task) { return task->window; } Display* ag_task_get_display (AgGetPropertyTask *task) { return task->dd->display; } AgGetPropertyTask* ag_get_next_completed_task (Display *display) { AgPerDisplayData *dd; dd = get_display_data (display, False); if (dd == NULL) return NULL; #ifdef DEBUG_SPEW printf ("%d pending %d completed\n", dd->n_tasks_pending, dd->n_tasks_completed); #endif return (AgGetPropertyTask*) dd->completed_tasks; } void* ag_Xmalloc (unsigned long bytes) { return (void*) Xmalloc (bytes); }