/* Cairo - a vector graphics library with display and print output * * Copyright © 2007 Chris Wilson * * This library is free software; you can redistribute it and/or * modify it either under the terms of the GNU Lesser General Public * License version 2.1 as published by the Free Software Foundation * (the "LGPL") or, at your option, under the terms of the Mozilla * Public License Version 1.1 (the "MPL"). If you do not alter this * notice, a recipient may use your version of this file under either * the MPL or the LGPL. * * You should have received a copy of the LGPL along with this library * in the file COPYING-LGPL-2.1; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335, USA * You should have received a copy of the MPL along with this library * in the file COPYING-MPL-1.1 * * The contents of this file are subject to the Mozilla Public License * Version 1.1 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY * OF ANY KIND, either express or implied. See the LGPL or the MPL for * the specific language governing rights and limitations. * * The Original Code is the cairo graphics library. * * The Initial Developer of the Original Code is Chris Wilson. * * Contributor(s): * Karl Tomlinson , Mozilla Corporation */ #include "cairoint.h" #if !CAIRO_HAS_XLIB_XCB_FUNCTIONS #include "cairo-xlib-private.h" #include "cairo-xlib-xrender-private.h" #include "cairo-freelist-private.h" #include "cairo-error-private.h" #include /* For XESetCloseDisplay */ typedef int (*cairo_xlib_error_func_t) (Display *display, XErrorEvent *event); struct _cairo_xlib_job { cairo_xlib_job_t *next; enum { RESOURCE, WORK } type; union { struct { cairo_xlib_notify_resource_func notify; XID xid; } resource; struct { cairo_xlib_notify_func notify; void *data; void (*destroy) (void *); } work; } func; }; static cairo_xlib_display_t *_cairo_xlib_display_list; static void _cairo_xlib_remove_close_display_hook_internal (cairo_xlib_display_t *display, cairo_xlib_hook_t *hook); static void _cairo_xlib_call_close_display_hooks (cairo_xlib_display_t *display) { cairo_xlib_screen_t *screen; cairo_xlib_hook_t *hook; cairo_list_foreach_entry (screen, cairo_xlib_screen_t, &display->screens, link) _cairo_xlib_screen_close_display (display, screen); while (TRUE) { hook = display->close_display_hooks; if (hook == NULL) break; _cairo_xlib_remove_close_display_hook_internal (display, hook); hook->func (display, hook); } display->closed = TRUE; } static void _cairo_xlib_display_finish (void *abstract_display) { cairo_xlib_display_t *display = abstract_display; display->display = NULL; } static void _cairo_xlib_display_destroy (void *abstract_display) { cairo_xlib_display_t *display = abstract_display; /* destroy all outstanding notifies */ while (display->workqueue != NULL) { cairo_xlib_job_t *job = display->workqueue; display->workqueue = job->next; if (job->type == WORK && job->func.work.destroy != NULL) job->func.work.destroy (job->func.work.data); _cairo_freelist_free (&display->wq_freelist, job); } _cairo_freelist_fini (&display->wq_freelist); while (! cairo_list_is_empty (&display->screens)) { _cairo_xlib_screen_destroy (cairo_list_first_entry (&display->screens, cairo_xlib_screen_t, link)); } free (display); } static int _noop_error_handler (Display *display, XErrorEvent *event) { return False; /* return value is ignored */ } static void _cairo_xlib_display_notify (cairo_xlib_display_t *display) { cairo_xlib_job_t *jobs, *job, *freelist; Display *dpy = display->display; /* Optimistic atomic pointer read -- don't care if it is wrong due to * contention as we will check again very shortly. */ if (display->workqueue == NULL) return; jobs = display->workqueue; while (jobs != NULL) { display->workqueue = NULL; /* reverse the list to obtain FIFO order */ job = NULL; do { cairo_xlib_job_t *next = jobs->next; jobs->next = job; job = jobs; jobs = next; } while (jobs != NULL); freelist = jobs = job; do { job = jobs; jobs = job->next; switch (job->type){ case WORK: job->func.work.notify (dpy, job->func.work.data); if (job->func.work.destroy != NULL) job->func.work.destroy (job->func.work.data); break; case RESOURCE: job->func.resource.notify (dpy, job->func.resource.xid); break; } } while (jobs != NULL); do { job = freelist; freelist = job->next; _cairo_freelist_free (&display->wq_freelist, job); } while (freelist != NULL); jobs = display->workqueue; } } static int _cairo_xlib_close_display (Display *dpy, XExtCodes *codes) { cairo_xlib_display_t *display, **prev, *next; cairo_xlib_error_func_t old_handler; CAIRO_MUTEX_LOCK (_cairo_xlib_display_mutex); for (display = _cairo_xlib_display_list; display; display = display->next) if (display->display == dpy) break; CAIRO_MUTEX_UNLOCK (_cairo_xlib_display_mutex); if (display == NULL) return 0; if (! cairo_device_acquire (&display->base)) { /* protect the notifies from triggering XErrors */ XSync (dpy, False); old_handler = XSetErrorHandler (_noop_error_handler); _cairo_xlib_display_notify (display); _cairo_xlib_call_close_display_hooks (display); /* catch any that arrived before marking the display as closed */ _cairo_xlib_display_notify (display); XSync (dpy, False); XSetErrorHandler (old_handler); cairo_device_release (&display->base); } /* * Unhook from the global list */ CAIRO_MUTEX_LOCK (_cairo_xlib_display_mutex); prev = &_cairo_xlib_display_list; for (display = _cairo_xlib_display_list; display; display = next) { next = display->next; if (display->display == dpy) { *prev = next; break; } else prev = &display->next; } CAIRO_MUTEX_UNLOCK (_cairo_xlib_display_mutex); assert (display != NULL); cairo_device_finish (&display->base); cairo_device_destroy (&display->base); /* Return value in accordance with requirements of * XESetCloseDisplay */ return 0; } static const cairo_device_backend_t _cairo_xlib_device_backend = { CAIRO_DEVICE_TYPE_XLIB, NULL, NULL, NULL, /* flush */ _cairo_xlib_display_finish, _cairo_xlib_display_destroy, }; /** * cairo_xlib_device_create: * @dpy: the display to create the device for * * Gets the device belonging to @dpy, or creates it if it doesn't exist yet. * * Returns: the device belonging to @dpy **/ cairo_device_t * _cairo_xlib_device_create (Display *dpy) { cairo_xlib_display_t *display; cairo_xlib_display_t **prev; cairo_device_t *device; XExtCodes *codes; const char *env; CAIRO_MUTEX_INITIALIZE (); /* There is an apparent deadlock between this mutex and the * mutex for the display, but it's actually safe. For the * app to call XCloseDisplay() while any other thread is * inside this function would be an error in the logic * app, and the CloseDisplay hook is the only other place we * acquire this mutex. */ CAIRO_MUTEX_LOCK (_cairo_xlib_display_mutex); for (prev = &_cairo_xlib_display_list; (display = *prev); prev = &(*prev)->next) { if (display->display == dpy) { /* * MRU the list */ if (prev != &_cairo_xlib_display_list) { *prev = display->next; display->next = _cairo_xlib_display_list; _cairo_xlib_display_list = display; } device = cairo_device_reference (&display->base); goto UNLOCK; } } display = malloc (sizeof (cairo_xlib_display_t)); if (unlikely (display == NULL)) { device = _cairo_device_create_in_error (CAIRO_STATUS_NO_MEMORY); goto UNLOCK; } /* Xlib calls out to the extension close_display hooks in LIFO * order. So we have to ensure that all extensions that we depend * on in our close_display hook are properly initialized before we * add our hook. For now, that means Render, so we call into its * QueryVersion function to ensure it gets initialized. */ display->render_major = display->render_minor = -1; XRenderQueryVersion (dpy, &display->render_major, &display->render_minor); env = getenv ("CAIRO_DEBUG"); if (env != NULL && (env = strstr (env, "xrender-version=")) != NULL) { int max_render_major, max_render_minor; env += sizeof ("xrender-version=") - 1; if (sscanf (env, "%d.%d", &max_render_major, &max_render_minor) != 2) max_render_major = max_render_minor = -1; if (max_render_major < display->render_major || (max_render_major == display->render_major && max_render_minor < display->render_minor)) { display->render_major = max_render_major; display->render_minor = max_render_minor; } } codes = XAddExtension (dpy); if (unlikely (codes == NULL)) { device = _cairo_device_create_in_error (CAIRO_STATUS_NO_MEMORY); free (display); goto UNLOCK; } _cairo_device_init (&display->base, &_cairo_xlib_device_backend); XESetCloseDisplay (dpy, codes->extension, _cairo_xlib_close_display); _cairo_freelist_init (&display->wq_freelist, sizeof (cairo_xlib_job_t)); cairo_device_reference (&display->base); /* add one for the CloseDisplay */ display->display = dpy; cairo_list_init (&display->screens); display->workqueue = NULL; display->close_display_hooks = NULL; display->closed = FALSE; memset (display->cached_xrender_formats, 0, sizeof (display->cached_xrender_formats)); display->force_precision = -1; /* Prior to Render 0.10, there is no protocol support for gradients and * we call function stubs instead, which would silently consume the drawing. */ #if RENDER_MAJOR == 0 && RENDER_MINOR < 10 display->buggy_gradients = TRUE; #else display->buggy_gradients = FALSE; #endif display->buggy_pad_reflect = FALSE; display->buggy_repeat = FALSE; /* This buggy_repeat condition is very complicated because there * are multiple X server code bases (with multiple versioning * schemes within a code base), and multiple bugs. * * The X servers: * * 1. The Vendor=="XFree86" code base with release numbers such * as 4.7.0 (VendorRelease==40700000). * * 2. The Vendor=="X.Org" code base (a descendant of the * XFree86 code base). It originally had things like * VendorRelease==60700000 for release 6.7.0 but then changed * its versioning scheme so that, for example, * VendorRelease==10400000 for the 1.4.0 X server within the * X.Org 7.3 release. * * The bugs: * * 1. The original bug that led to the buggy_repeat * workaround. This was a bug that Owen Taylor investigated, * understood well, and characterized against carious X * servers. Confirmed X servers with this bug include: * * "XFree86" <= 40500000 * "X.Org" <= 60802000 (only with old numbering >= 60700000) * * 2. A separate bug resulting in a crash of the X server when * using cairo's extend-reflect test case, (which, surprisingly * enough was not passing RepeatReflect to the X server, but * instead using RepeatNormal in a workaround). Nobody to date * has understood the bug well, but it appears to be gone as of * the X.Org 1.4.0 server. This bug is coincidentally avoided * by using the same buggy_repeat workaround. Confirmed X * servers with this bug include: * * "X.org" == 60900000 (old versioning scheme) * "X.org" < 10400000 (new numbering scheme) * * For the old-versioning-scheme X servers we don't know * exactly when second the bug started, but since bug 1 is * present through 6.8.2 and bug 2 is present in 6.9.0 it seems * safest to just blacklist all old-versioning-scheme X servers, * (just using VendorRelease < 70000000), as buggy_repeat=TRUE. */ if (strstr (ServerVendor (dpy), "X.Org") != NULL) { if (VendorRelease (dpy) >= 60700000) { if (VendorRelease (dpy) < 70000000) display->buggy_repeat = TRUE; /* We know that gradients simply do not work in early Xorg servers */ if (VendorRelease (dpy) < 70200000) display->buggy_gradients = TRUE; /* And the extended repeat modes were not fixed until much later */ display->buggy_pad_reflect = TRUE; } else { if (VendorRelease (dpy) < 10400000) display->buggy_repeat = TRUE; /* Too many bugs in the early drivers */ if (VendorRelease (dpy) < 10699000) display->buggy_pad_reflect = TRUE; } } else if (strstr (ServerVendor (dpy), "XFree86") != NULL) { if (VendorRelease (dpy) <= 40500000) display->buggy_repeat = TRUE; display->buggy_gradients = TRUE; display->buggy_pad_reflect = TRUE; } display->next = _cairo_xlib_display_list; _cairo_xlib_display_list = display; device = &display->base; UNLOCK: CAIRO_MUTEX_UNLOCK (_cairo_xlib_display_mutex); return device; } void _cairo_xlib_add_close_display_hook (cairo_xlib_display_t *display, cairo_xlib_hook_t *hook) { hook->prev = NULL; hook->next = display->close_display_hooks; if (hook->next != NULL) hook->next->prev = hook; display->close_display_hooks = hook; } static void _cairo_xlib_remove_close_display_hook_internal (cairo_xlib_display_t *display, cairo_xlib_hook_t *hook) { if (display->close_display_hooks == hook) display->close_display_hooks = hook->next; else if (hook->prev != NULL) hook->prev->next = hook->next; if (hook->next != NULL) hook->next->prev = hook->prev; hook->prev = NULL; hook->next = NULL; } void _cairo_xlib_remove_close_display_hook (cairo_xlib_display_t *display, cairo_xlib_hook_t *hook) { _cairo_xlib_remove_close_display_hook_internal (display, hook); } cairo_status_t _cairo_xlib_display_queue_resource (cairo_xlib_display_t *display, cairo_xlib_notify_resource_func notify, XID xid) { cairo_xlib_job_t *job; cairo_status_t status = CAIRO_STATUS_NO_MEMORY; if (display->closed == FALSE) { job = _cairo_freelist_alloc (&display->wq_freelist); if (job != NULL) { job->type = RESOURCE; job->func.resource.xid = xid; job->func.resource.notify = notify; job->next = display->workqueue; display->workqueue = job; status = CAIRO_STATUS_SUCCESS; } } return status; } cairo_status_t _cairo_xlib_display_queue_work (cairo_xlib_display_t *display, cairo_xlib_notify_func notify, void *data, void (*destroy) (void *)) { cairo_xlib_job_t *job; cairo_status_t status = CAIRO_STATUS_NO_MEMORY; if (display->closed == FALSE) { job = _cairo_freelist_alloc (&display->wq_freelist); if (job != NULL) { job->type = WORK; job->func.work.data = data; job->func.work.notify = notify; job->func.work.destroy = destroy; job->next = display->workqueue; display->workqueue = job; status = CAIRO_STATUS_SUCCESS; } } return status; } cairo_status_t _cairo_xlib_display_acquire (cairo_device_t *device, cairo_xlib_display_t **display) { cairo_status_t status; status = cairo_device_acquire (device); if (status) return status; *display = (cairo_xlib_display_t *) device; _cairo_xlib_display_notify (*display); return status; } XRenderPictFormat * _cairo_xlib_display_get_xrender_format_for_pixman(cairo_xlib_display_t *display, pixman_format_code_t format) { Display *dpy = display->display; XRenderPictFormat tmpl; int mask; #define MASK(x) ((1<<(x))-1) tmpl.depth = PIXMAN_FORMAT_DEPTH(format); mask = PictFormatType | PictFormatDepth; switch (PIXMAN_FORMAT_TYPE(format)) { case PIXMAN_TYPE_ARGB: tmpl.type = PictTypeDirect; tmpl.direct.alphaMask = MASK(PIXMAN_FORMAT_A(format)); if (PIXMAN_FORMAT_A(format)) tmpl.direct.alpha = (PIXMAN_FORMAT_R(format) + PIXMAN_FORMAT_G(format) + PIXMAN_FORMAT_B(format)); tmpl.direct.redMask = MASK(PIXMAN_FORMAT_R(format)); tmpl.direct.red = (PIXMAN_FORMAT_G(format) + PIXMAN_FORMAT_B(format)); tmpl.direct.greenMask = MASK(PIXMAN_FORMAT_G(format)); tmpl.direct.green = PIXMAN_FORMAT_B(format); tmpl.direct.blueMask = MASK(PIXMAN_FORMAT_B(format)); tmpl.direct.blue = 0; mask |= PictFormatRed | PictFormatRedMask; mask |= PictFormatGreen | PictFormatGreenMask; mask |= PictFormatBlue | PictFormatBlueMask; mask |= PictFormatAlpha | PictFormatAlphaMask; break; case PIXMAN_TYPE_ABGR: tmpl.type = PictTypeDirect; tmpl.direct.alphaMask = MASK(PIXMAN_FORMAT_A(format)); if (tmpl.direct.alphaMask) tmpl.direct.alpha = (PIXMAN_FORMAT_B(format) + PIXMAN_FORMAT_G(format) + PIXMAN_FORMAT_R(format)); tmpl.direct.blueMask = MASK(PIXMAN_FORMAT_B(format)); tmpl.direct.blue = (PIXMAN_FORMAT_G(format) + PIXMAN_FORMAT_R(format)); tmpl.direct.greenMask = MASK(PIXMAN_FORMAT_G(format)); tmpl.direct.green = PIXMAN_FORMAT_R(format); tmpl.direct.redMask = MASK(PIXMAN_FORMAT_R(format)); tmpl.direct.red = 0; mask |= PictFormatRed | PictFormatRedMask; mask |= PictFormatGreen | PictFormatGreenMask; mask |= PictFormatBlue | PictFormatBlueMask; mask |= PictFormatAlpha | PictFormatAlphaMask; break; case PIXMAN_TYPE_BGRA: tmpl.type = PictTypeDirect; tmpl.direct.blueMask = MASK(PIXMAN_FORMAT_B(format)); tmpl.direct.blue = (PIXMAN_FORMAT_BPP(format) - PIXMAN_FORMAT_B(format)); tmpl.direct.greenMask = MASK(PIXMAN_FORMAT_G(format)); tmpl.direct.green = (PIXMAN_FORMAT_BPP(format) - PIXMAN_FORMAT_B(format) - PIXMAN_FORMAT_G(format)); tmpl.direct.redMask = MASK(PIXMAN_FORMAT_R(format)); tmpl.direct.red = (PIXMAN_FORMAT_BPP(format) - PIXMAN_FORMAT_B(format) - PIXMAN_FORMAT_G(format) - PIXMAN_FORMAT_R(format)); tmpl.direct.alphaMask = MASK(PIXMAN_FORMAT_A(format)); tmpl.direct.alpha = 0; mask |= PictFormatRed | PictFormatRedMask; mask |= PictFormatGreen | PictFormatGreenMask; mask |= PictFormatBlue | PictFormatBlueMask; mask |= PictFormatAlpha | PictFormatAlphaMask; break; case PIXMAN_TYPE_A: tmpl.type = PictTypeDirect; tmpl.direct.alpha = 0; tmpl.direct.alphaMask = MASK(PIXMAN_FORMAT_A(format)); mask |= PictFormatAlpha | PictFormatAlphaMask; break; case PIXMAN_TYPE_COLOR: case PIXMAN_TYPE_GRAY: /* XXX Find matching visual/colormap */ tmpl.type = PictTypeIndexed; //tmpl.colormap = screen->visuals[PIXMAN_FORMAT_VIS(format)].vid; //mask |= PictFormatColormap; return NULL; } #undef MASK /* XXX caching? */ return XRenderFindFormat(dpy, mask, &tmpl, 1); } XRenderPictFormat * _cairo_xlib_display_get_xrender_format (cairo_xlib_display_t *display, cairo_format_t format) { XRenderPictFormat *xrender_format; #if ! ATOMIC_OP_NEEDS_MEMORY_BARRIER xrender_format = display->cached_xrender_formats[format]; if (likely (xrender_format != NULL)) return xrender_format; #endif xrender_format = display->cached_xrender_formats[format]; if (xrender_format == NULL) { int pict_format; switch (format) { case CAIRO_FORMAT_A1: pict_format = PictStandardA1; break; case CAIRO_FORMAT_A8: pict_format = PictStandardA8; break; case CAIRO_FORMAT_RGB24: pict_format = PictStandardRGB24; break; case CAIRO_FORMAT_RGB16_565: xrender_format = _cairo_xlib_display_get_xrender_format_for_pixman(display, PIXMAN_r5g6b5); break; case CAIRO_FORMAT_RGB30: xrender_format = _cairo_xlib_display_get_xrender_format_for_pixman(display, PIXMAN_x2r10g10b10); break; case CAIRO_FORMAT_INVALID: default: ASSERT_NOT_REACHED; case CAIRO_FORMAT_ARGB32: pict_format = PictStandardARGB32; break; } if (!xrender_format) xrender_format = XRenderFindStandardFormat (display->display, pict_format); display->cached_xrender_formats[format] = xrender_format; } return xrender_format; } cairo_xlib_screen_t * _cairo_xlib_display_get_screen (cairo_xlib_display_t *display, Screen *screen) { cairo_xlib_screen_t *info; cairo_list_foreach_entry (info, cairo_xlib_screen_t, &display->screens, link) { if (info->screen == screen) { if (display->screens.next != &info->link) cairo_list_move (&info->link, &display->screens); return info; } } return NULL; } void _cairo_xlib_display_get_xrender_version (cairo_xlib_display_t *display, int *major, int *minor) { *major = display->render_major; *minor = display->render_minor; } cairo_bool_t _cairo_xlib_display_has_repeat (cairo_device_t *device) { return ! ((cairo_xlib_display_t *) device)->buggy_repeat; } cairo_bool_t _cairo_xlib_display_has_reflect (cairo_device_t *device) { return ! ((cairo_xlib_display_t *) device)->buggy_pad_reflect; } cairo_bool_t _cairo_xlib_display_has_gradients (cairo_device_t *device) { return ! ((cairo_xlib_display_t *) device)->buggy_gradients; } void cairo_xlib_device_debug_set_precision (cairo_device_t *device, int precision) { if (device == NULL || device->status) return; if (device->backend->type != CAIRO_DEVICE_TYPE_XLIB) { cairo_status_t status; status = _cairo_device_set_error (device, CAIRO_STATUS_DEVICE_TYPE_MISMATCH); (void) status; return; } ((cairo_xlib_display_t *) device)->force_precision = precision; } int cairo_xlib_device_debug_get_precision (cairo_device_t *device) { if (device == NULL || device->status) return -1; if (device->backend->type != CAIRO_DEVICE_TYPE_XLIB) { cairo_status_t status; status = _cairo_device_set_error (device, CAIRO_STATUS_DEVICE_TYPE_MISMATCH); (void) status; return -1; } return ((cairo_xlib_display_t *) device)->force_precision; } #endif /* !CAIRO_HAS_XLIB_XCB_FUNCTIONS */