xenocara/lib/libX11/src/xcb_io.c

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/* Copyright (C) 2003-2006 Jamey Sharp, Josh Triplett
* This file is licensed under the MIT license. See the file COPYING. */
#include "Xlibint.h"
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#include "locking.h"
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#include "Xxcbint.h"
#include <xcb/xcbext.h>
#include <xcb/xcbxlib.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
/* Call internal connection callbacks for any fds that are currently
* ready to read. This function will not block unless one of the
* callbacks blocks.
*
* This code borrowed from _XWaitForReadable. Inverse call tree:
* _XRead
* _XWaitForWritable
* _XFlush
* _XSend
* _XEventsQueued
* _XReadEvents
* _XRead[0-9]+
* _XAllocIDs
* _XReply
* _XEatData
* _XReadPad
*/
static void check_internal_connections(Display *dpy)
{
struct _XConnectionInfo *ilist;
fd_set r_mask;
struct timeval tv;
int result;
int highest_fd = -1;
if(dpy->flags & XlibDisplayProcConni || !dpy->im_fd_info)
return;
FD_ZERO(&r_mask);
for(ilist = dpy->im_fd_info; ilist; ilist = ilist->next)
{
assert(ilist->fd >= 0);
FD_SET(ilist->fd, &r_mask);
if(ilist->fd > highest_fd)
highest_fd = ilist->fd;
}
assert(highest_fd >= 0);
tv.tv_sec = 0;
tv.tv_usec = 0;
result = select(highest_fd + 1, &r_mask, NULL, NULL, &tv);
if(result == -1)
{
if(errno == EINTR)
return;
_XIOError(dpy);
}
for(ilist = dpy->im_fd_info; result && ilist; ilist = ilist->next)
if(FD_ISSET(ilist->fd, &r_mask))
{
_XProcessInternalConnection(dpy, ilist);
--result;
}
}
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static void condition_wait(Display *dpy, xcondition_t cv)
{
_XPutXCBBuffer(dpy);
xcb_xlib_unlock(dpy->xcb->connection);
ConditionWait(dpy, cv);
xcb_xlib_lock(dpy->xcb->connection);
_XGetXCBBuffer(dpy);
}
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static void handle_event(Display *dpy, xcb_generic_event_t *e)
{
if(!e)
_XIOError(dpy);
dpy->last_request_read = e->full_sequence;
if(e->response_type == X_Error)
_XError(dpy, (xError *) e);
else
_XEnq(dpy, (xEvent *) e);
free(e);
}
static void call_handlers(Display *dpy, xcb_generic_reply_t *buf)
{
_XAsyncHandler *async, *next;
for(async = dpy->async_handlers; async; async = next)
{
next = async->next;
if(async->handler(dpy, (xReply *) buf, (char *) buf, sizeof(xReply) + (buf->length << 2), async->data))
return;
}
if(buf->response_type == 0) /* unhandled error */
_XError(dpy, (xError *) buf);
}
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static xcb_generic_event_t * wait_or_poll_for_event(Display *dpy, int wait)
{
xcb_connection_t *c = dpy->xcb->connection;
xcb_generic_event_t *event;
if(wait && !dpy->head)
{
UnlockDisplay(dpy);
event = xcb_wait_for_event(c);
LockDisplay(dpy);
}
else
event = xcb_poll_for_event(c);
return event;
}
static void process_responses(Display *dpy, int wait_for_first_event, xcb_generic_error_t **current_error, unsigned int current_request)
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{
void *reply;
xcb_generic_event_t *event = dpy->xcb->next_event;
xcb_generic_error_t *error;
PendingRequest *req;
xcb_connection_t *c = dpy->xcb->connection;
if(!event && dpy->xcb->event_owner == XlibOwnsEventQueue)
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event = wait_or_poll_for_event(dpy, wait_for_first_event);
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while(1)
{
req = dpy->xcb->pending_requests;
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assert(!(req && current_request && !XCB_SEQUENCE_COMPARE(req->sequence, <=, current_request)));
if(event && (!req || XCB_SEQUENCE_COMPARE(event->full_sequence, <=, req->sequence)))
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{
if(current_error && event->response_type == 0 && event->full_sequence == current_request)
{
*current_error = (xcb_generic_error_t *) event;
event = 0;
break;
}
handle_event(dpy, event);
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event = wait_or_poll_for_event(dpy, wait_for_first_event);
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}
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else if(req && req->waiters != -1)
{
if(req->sequence == current_request)
break;
if(!current_request && !(wait_for_first_event && !dpy->head))
break;
dpy->xcb->next_event = event;
req->waiters++;
assert(req->waiters > 0);
condition_wait(dpy, &req->condition);
if(--req->waiters == 0)
free(req);
event = dpy->xcb->next_event;
}
else if(req && xcb_poll_for_reply(dpy->xcb->connection, req->sequence, &reply, &error))
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{
dpy->xcb->pending_requests = req->next;
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if(!dpy->xcb->pending_requests)
dpy->xcb->pending_requests_tail = &dpy->xcb->pending_requests;
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if(!reply)
reply = error;
if(reply)
{
dpy->last_request_read = req->sequence;
call_handlers(dpy, reply);
}
free(req);
free(reply);
}
else
break;
}
dpy->xcb->next_event = event;
if(xcb_connection_has_error(c))
_XIOError(dpy);
assert_sequence_less(dpy->last_request_read, dpy->request);
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assert(!wait_for_first_event || dpy->head);
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}
int _XEventsQueued(Display *dpy, int mode)
{
if(dpy->xcb->event_owner != XlibOwnsEventQueue)
return 0;
if(mode == QueuedAfterFlush)
_XSend(dpy, 0, 0);
else
check_internal_connections(dpy);
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process_responses(dpy, 0, 0, 0);
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return dpy->qlen;
}
/* _XReadEvents - Flush the output queue,
* then read as many events as possible (but at least 1) and enqueue them
*/
void _XReadEvents(Display *dpy)
{
_XSend(dpy, 0, 0);
if(dpy->xcb->event_owner != XlibOwnsEventQueue)
return;
check_internal_connections(dpy);
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process_responses(dpy, 1, 0, 0);
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}
/*
* _XSend - Flush the buffer and send the client data. 32 bit word aligned
* transmission is used, if size is not 0 mod 4, extra bytes are transmitted.
*
* Note that the connection must not be read from once the data currently
* in the buffer has been written.
*/
void _XSend(Display *dpy, const char *data, long size)
{
xcb_connection_t *c = dpy->xcb->connection;
assert(!dpy->xcb->request_extra);
dpy->xcb->request_extra = data;
dpy->xcb->request_extra_size = size;
/* give dpy->buffer to XCB */
_XPutXCBBuffer(dpy);
if(xcb_flush(c) <= 0)
_XIOError(dpy);
/* get a new dpy->buffer */
_XGetXCBBuffer(dpy);
check_internal_connections(dpy);
/* A straight port of XlibInt.c would call _XSetSeqSyncFunction
* here. However that does no good: unlike traditional Xlib,
* Xlib/XCB almost never calls _XFlush because _XPutXCBBuffer
* automatically pushes requests down into XCB, so Xlib's buffer
* is empty most of the time. Since setting a synchandler has no
* effect until after UnlockDisplay returns, we may as well do
* the check in _XUnlockDisplay. */
}
/*
* _XFlush - Flush the X request buffer. If the buffer is empty, no
* action is taken.
*/
void _XFlush(Display *dpy)
{
_XSend(dpy, 0, 0);
_XEventsQueued(dpy, QueuedAfterReading);
}
static int
_XIDHandler(Display *dpy)
{
XID next = xcb_generate_id(dpy->xcb->connection);
LockDisplay(dpy);
dpy->xcb->next_xid = next;
if(dpy->flags & XlibDisplayPrivSync)
{
dpy->synchandler = dpy->savedsynchandler;
dpy->flags &= ~XlibDisplayPrivSync;
}
UnlockDisplay(dpy);
SyncHandle();
return 0;
}
/* _XAllocID - resource ID allocation routine. */
XID _XAllocID(Display *dpy)
{
XID ret = dpy->xcb->next_xid;
dpy->xcb->next_xid = 0;
assert(!(dpy->flags & XlibDisplayPrivSync));
dpy->savedsynchandler = dpy->synchandler;
dpy->flags |= XlibDisplayPrivSync;
dpy->synchandler = _XIDHandler;
return ret;
}
/* _XAllocIDs - multiple resource ID allocation routine. */
void _XAllocIDs(Display *dpy, XID *ids, int count)
{
int i;
_XPutXCBBuffer(dpy);
for (i = 0; i < count; i++)
ids[i] = xcb_generate_id(dpy->xcb->connection);
_XGetXCBBuffer(dpy);
}
static void _XFreeReplyData(Display *dpy, Bool force)
{
if(!force && dpy->xcb->reply_consumed < dpy->xcb->reply_length)
return;
free(dpy->xcb->reply_data);
dpy->xcb->reply_data = 0;
}
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static PendingRequest * insert_pending_request(Display *dpy)
{
PendingRequest **cur = &dpy->xcb->pending_requests;
while(*cur && XCB_SEQUENCE_COMPARE((*cur)->sequence, <, dpy->request))
cur = &((*cur)->next);
if(*cur && (*cur)->sequence == dpy->request)
{
/* Replacing an existing PendingRequest should only happen once,
when calling _XReply, and the replaced PendingRequest must
not have a condition set. */
assert((*cur)->waiters == -1);
}
else
{
PendingRequest *node = malloc(sizeof(PendingRequest));
assert(node);
node->next = *cur;
node->sequence = dpy->request;
if(cur == dpy->xcb->pending_requests_tail)
dpy->xcb->pending_requests_tail = &(node->next);
*cur = node;
}
(*cur)->waiters = 0;
xcondition_init(&((*cur)->condition));
return *cur;
}
static void remove_pending_request(Display *dpy, PendingRequest *node)
{
PendingRequest **cur = &dpy->xcb->pending_requests;
while(*cur && *cur != node)
cur = &((*cur)->next);
if(*cur == node)
*cur = node->next;
if(!dpy->xcb->pending_requests)
dpy->xcb->pending_requests_tail = &dpy->xcb->pending_requests;
}
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/*
* _XReply - Wait for a reply packet and copy its contents into the
* specified rep.
* extra: number of 32-bit words expected after the reply
* discard: should I discard data following "extra" words?
*/
Status _XReply(Display *dpy, xReply *rep, int extra, Bool discard)
{
xcb_generic_error_t *error;
xcb_connection_t *c = dpy->xcb->connection;
char *reply;
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PendingRequest *current;
unsigned int current_sequence;
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assert(!dpy->xcb->reply_data);
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/* Internals of UnlockDisplay done by hand here, so that we can
insert_pending_request *after* we _XPutXCBBuffer, but before we
unlock the display. */
_XPutXCBBuffer(dpy);
current = insert_pending_request(dpy);
xcb_xlib_unlock(dpy->xcb->connection);
if(dpy->xcb->lock_fns.unlock_display)
dpy->xcb->lock_fns.unlock_display(dpy);
reply = xcb_wait_for_reply(c, current->sequence, &error);
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LockDisplay(dpy);
check_internal_connections(dpy);
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process_responses(dpy, 0, &error, current->sequence);
current_sequence = current->sequence;
remove_pending_request(dpy, current);
if(current->waiters)
{ /* The ConditionBroadcast macro contains an if; braces needed here. */
ConditionBroadcast(dpy, &current->condition);
}
else
{
free(current);
current = NULL;
}
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if(error)
{
_XExtension *ext;
xError *err = (xError *) error;
int ret_code;
dpy->last_request_read = error->full_sequence;
/* Xlib is evil and assumes that even errors will be
* copied into rep. */
memcpy(rep, error, 32);
/* do not die on "no such font", "can't allocate",
"can't grab" failures */
switch(err->errorCode)
{
case BadName:
switch(err->majorCode)
{
case X_LookupColor:
case X_AllocNamedColor:
return 0;
}
break;
case BadFont:
if(err->majorCode == X_QueryFont)
return 0;
break;
case BadAlloc:
case BadAccess:
return 0;
}
/*
* we better see if there is an extension who may
* want to suppress the error.
*/
for(ext = dpy->ext_procs; ext; ext = ext->next)
if(ext->error && ext->error(dpy, err, &ext->codes, &ret_code))
return ret_code;
_XError(dpy, (xError *) error);
return 0;
}
/* it's not an error, but we don't have a reply, so it's an I/O
* error. */
if(!reply)
{
_XIOError(dpy);
return 0;
}
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dpy->last_request_read = current_sequence;
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/* there's no error and we have a reply. */
dpy->xcb->reply_data = reply;
dpy->xcb->reply_consumed = sizeof(xReply) + (extra * 4);
dpy->xcb->reply_length = sizeof(xReply);
if(dpy->xcb->reply_data[0] == 1)
dpy->xcb->reply_length += (((xcb_generic_reply_t *) dpy->xcb->reply_data)->length * 4);
/* error: Xlib asks too much. give them what we can anyway. */
if(dpy->xcb->reply_length < dpy->xcb->reply_consumed)
dpy->xcb->reply_consumed = dpy->xcb->reply_length;
memcpy(rep, dpy->xcb->reply_data, dpy->xcb->reply_consumed);
_XFreeReplyData(dpy, discard);
return 1;
}
int _XRead(Display *dpy, char *data, long size)
{
assert(size >= 0);
if(size == 0)
return 0;
assert(dpy->xcb->reply_data != 0);
assert(dpy->xcb->reply_consumed + size <= dpy->xcb->reply_length);
memcpy(data, dpy->xcb->reply_data + dpy->xcb->reply_consumed, size);
dpy->xcb->reply_consumed += size;
_XFreeReplyData(dpy, False);
return 0;
}
/*
* _XReadPad - Read bytes from the socket taking into account incomplete
* reads. If the number of bytes is not 0 mod 4, read additional pad
* bytes.
*/
void _XReadPad(Display *dpy, char *data, long size)
{
_XRead(dpy, data, size);
dpy->xcb->reply_consumed += -size & 3;
_XFreeReplyData(dpy, False);
}
/* Read and discard "n" 8-bit bytes of data */
void _XEatData(Display *dpy, unsigned long n)
{
dpy->xcb->reply_consumed += n;
_XFreeReplyData(dpy, False);
}