/* mate-rr-config.c * * Copyright 2007, 2008, Red Hat, Inc. * * This file is part of the Mate Library. * * The Mate Library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * The Mate Library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with the Mate Library; see the file COPYING.LIB. If not, * write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301, USA. * * Author: Soren Sandmann */ #define MATE_DESKTOP_USE_UNSTABLE_API #include #include #include #include #include #include #include #include #undef MATE_DISABLE_DEPRECATED #include "mate-rr-config.h" #include "edid.h" #include "mate-rr-private.h" #define CONFIG_INTENDED_BASENAME "monitors.xml" #define CONFIG_BACKUP_BASENAME "monitors.xml.backup" /* In version 0 of the config file format, we had several * toplevel elements and no explicit version number. So, the filed looked * like * * * ... * * * ... * * * Since version 1 of the config file, the file has a toplevel * element to group all the configurations. That element has a "version" * attribute which is an integer. So, the file looks like this: * * * * ... * * * ... * * */ /* A helper wrapper around the GMarkup parser stuff */ static gboolean parse_file_gmarkup (const gchar *file, const GMarkupParser *parser, gpointer data, GError **err); typedef struct CrtcAssignment CrtcAssignment; static gboolean crtc_assignment_apply (CrtcAssignment *assign, guint32 timestamp, GError **error); static CrtcAssignment *crtc_assignment_new (MateRRScreen *screen, MateOutputInfo **outputs, GError **error); static void crtc_assignment_free (CrtcAssignment *assign); static void output_free (MateOutputInfo *output); static MateOutputInfo *output_copy (MateOutputInfo *output); typedef struct Parser Parser; /* Parser for monitor configurations */ struct Parser { int config_file_version; MateOutputInfo * output; MateRRConfig * configuration; GPtrArray * outputs; GPtrArray * configurations; GQueue * stack; }; static int parse_int (const char *text) { return strtol (text, NULL, 0); } static guint parse_uint (const char *text) { return strtoul (text, NULL, 0); } static gboolean stack_is (Parser *parser, const char *s1, ...) { GList *stack = NULL; const char *s; GList *l1, *l2; va_list args; stack = g_list_prepend (stack, (gpointer)s1); va_start (args, s1); s = va_arg (args, const char *); while (s) { stack = g_list_prepend (stack, (gpointer)s); s = va_arg (args, const char *); } l1 = stack; l2 = parser->stack->head; while (l1 && l2) { if (strcmp (l1->data, l2->data) != 0) { g_list_free (stack); return FALSE; } l1 = l1->next; l2 = l2->next; } g_list_free (stack); return (!l1 && !l2); } static void handle_start_element (GMarkupParseContext *context, const gchar *name, const gchar **attr_names, const gchar **attr_values, gpointer user_data, GError **err) { Parser *parser = user_data; if (strcmp (name, "output") == 0) { int i; g_assert (parser->output == NULL); parser->output = g_new0 (MateOutputInfo, 1); parser->output->rotation = 0; for (i = 0; attr_names[i] != NULL; ++i) { if (strcmp (attr_names[i], "name") == 0) { parser->output->name = g_strdup (attr_values[i]); break; } } if (!parser->output->name) { /* This really shouldn't happen, but it's better to make * something up than to crash later. */ g_warning ("Malformed monitor configuration file"); parser->output->name = g_strdup ("default"); } parser->output->connected = FALSE; parser->output->on = FALSE; parser->output->primary = FALSE; } else if (strcmp (name, "configuration") == 0) { g_assert (parser->configuration == NULL); parser->configuration = g_new0 (MateRRConfig, 1); parser->configuration->clone = FALSE; parser->configuration->outputs = NULL; } else if (strcmp (name, "monitors") == 0) { int i; for (i = 0; attr_names[i] != NULL; i++) { if (strcmp (attr_names[i], "version") == 0) { parser->config_file_version = parse_int (attr_values[i]); break; } } } g_queue_push_tail (parser->stack, g_strdup (name)); } static void handle_end_element (GMarkupParseContext *context, const gchar *name, gpointer user_data, GError **err) { Parser *parser = user_data; if (strcmp (name, "output") == 0) { /* If no rotation properties were set, just use MATE_RR_ROTATION_0 */ if (parser->output->rotation == 0) parser->output->rotation = MATE_RR_ROTATION_0; g_ptr_array_add (parser->outputs, parser->output); parser->output = NULL; } else if (strcmp (name, "configuration") == 0) { g_ptr_array_add (parser->outputs, NULL); parser->configuration->outputs = (MateOutputInfo **)g_ptr_array_free (parser->outputs, FALSE); parser->outputs = g_ptr_array_new (); g_ptr_array_add (parser->configurations, parser->configuration); parser->configuration = NULL; } g_free (g_queue_pop_tail (parser->stack)); } #define TOPLEVEL_ELEMENT (parser->config_file_version > 0 ? "monitors" : NULL) static void handle_text (GMarkupParseContext *context, const gchar *text, gsize text_len, gpointer user_data, GError **err) { Parser *parser = user_data; if (stack_is (parser, "vendor", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->connected = TRUE; strncpy (parser->output->vendor, text, 3); parser->output->vendor[3] = 0; } else if (stack_is (parser, "clone", "configuration", TOPLEVEL_ELEMENT, NULL)) { if (strcmp (text, "yes") == 0) parser->configuration->clone = TRUE; } else if (stack_is (parser, "product", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->connected = TRUE; parser->output->product = parse_int (text); } else if (stack_is (parser, "serial", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->connected = TRUE; parser->output->serial = parse_uint (text); } else if (stack_is (parser, "width", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->on = TRUE; parser->output->width = parse_int (text); } else if (stack_is (parser, "x", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->on = TRUE; parser->output->x = parse_int (text); } else if (stack_is (parser, "y", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->on = TRUE; parser->output->y = parse_int (text); } else if (stack_is (parser, "height", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->on = TRUE; parser->output->height = parse_int (text); } else if (stack_is (parser, "rate", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { parser->output->on = TRUE; parser->output->rate = parse_int (text); } else if (stack_is (parser, "rotation", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { if (strcmp (text, "normal") == 0) { parser->output->rotation |= MATE_RR_ROTATION_0; } else if (strcmp (text, "left") == 0) { parser->output->rotation |= MATE_RR_ROTATION_90; } else if (strcmp (text, "upside_down") == 0) { parser->output->rotation |= MATE_RR_ROTATION_180; } else if (strcmp (text, "right") == 0) { parser->output->rotation |= MATE_RR_ROTATION_270; } } else if (stack_is (parser, "reflect_x", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { if (strcmp (text, "yes") == 0) { parser->output->rotation |= MATE_RR_REFLECT_X; } } else if (stack_is (parser, "reflect_y", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { if (strcmp (text, "yes") == 0) { parser->output->rotation |= MATE_RR_REFLECT_Y; } } else if (stack_is (parser, "primary", "output", "configuration", TOPLEVEL_ELEMENT, NULL)) { if (strcmp (text, "yes") == 0) { parser->output->primary = TRUE; } } else { /* Ignore other properties so we can expand the format in the future */ } } static void parser_free (Parser *parser) { int i; GList *list; g_assert (parser != NULL); if (parser->output) output_free (parser->output); if (parser->configuration) mate_rr_config_free (parser->configuration); for (i = 0; i < parser->outputs->len; ++i) { MateOutputInfo *output = parser->outputs->pdata[i]; output_free (output); } g_ptr_array_free (parser->outputs, TRUE); for (i = 0; i < parser->configurations->len; ++i) { MateRRConfig *config = parser->configurations->pdata[i]; mate_rr_config_free (config); } g_ptr_array_free (parser->configurations, TRUE); for (list = parser->stack->head; list; list = list->next) g_free (list->data); g_queue_free (parser->stack); g_free (parser); } static MateRRConfig ** configurations_read_from_file (const gchar *filename, GError **error) { Parser *parser = g_new0 (Parser, 1); MateRRConfig **result; GMarkupParser callbacks = { handle_start_element, handle_end_element, handle_text, NULL, /* passthrough */ NULL, /* error */ }; parser->config_file_version = 0; parser->configurations = g_ptr_array_new (); parser->outputs = g_ptr_array_new (); parser->stack = g_queue_new (); if (!parse_file_gmarkup (filename, &callbacks, parser, error)) { result = NULL; g_assert (parser->outputs); goto out; } g_assert (parser->outputs); g_ptr_array_add (parser->configurations, NULL); result = (MateRRConfig **)g_ptr_array_free (parser->configurations, FALSE); parser->configurations = g_ptr_array_new (); g_assert (parser->outputs); out: parser_free (parser); return result; } MateRRConfig * mate_rr_config_new_current (MateRRScreen *screen) { MateRRConfig *config = g_new0 (MateRRConfig, 1); GPtrArray *a = g_ptr_array_new (); MateRROutput **rr_outputs; int i; int clone_width = -1; int clone_height = -1; int last_x; g_return_val_if_fail (screen != NULL, NULL); rr_outputs = mate_rr_screen_list_outputs (screen); config->clone = FALSE; for (i = 0; rr_outputs[i] != NULL; ++i) { MateRROutput *rr_output = rr_outputs[i]; MateOutputInfo *output = g_new0 (MateOutputInfo, 1); MateRRMode *mode = NULL; const guint8 *edid_data = mate_rr_output_get_edid_data (rr_output); MateRRCrtc *crtc; output->name = g_strdup (mate_rr_output_get_name (rr_output)); output->connected = mate_rr_output_is_connected (rr_output); if (!output->connected) { output->x = -1; output->y = -1; output->width = -1; output->height = -1; output->rate = -1; output->rotation = MATE_RR_ROTATION_0; } else { MonitorInfo *info = NULL; if (edid_data) info = decode_edid (edid_data); if (info) { memcpy (output->vendor, info->manufacturer_code, sizeof (output->vendor)); output->product = info->product_code; output->serial = info->serial_number; output->aspect = info->aspect_ratio; } else { strcpy (output->vendor, "???"); output->product = 0; output->serial = 0; } if (mate_rr_output_is_laptop (rr_output)) output->display_name = g_strdup (_("Laptop")); else output->display_name = make_display_name (info); g_free (info); crtc = mate_rr_output_get_crtc (rr_output); mode = crtc? mate_rr_crtc_get_current_mode (crtc) : NULL; if (crtc && mode) { output->on = TRUE; mate_rr_crtc_get_position (crtc, &output->x, &output->y); output->width = mate_rr_mode_get_width (mode); output->height = mate_rr_mode_get_height (mode); output->rate = mate_rr_mode_get_freq (mode); output->rotation = mate_rr_crtc_get_current_rotation (crtc); if (output->x == 0 && output->y == 0) { if (clone_width == -1) { clone_width = output->width; clone_height = output->height; } else if (clone_width == output->width && clone_height == output->height) { config->clone = TRUE; } } } else { output->on = FALSE; config->clone = FALSE; } /* Get preferred size for the monitor */ mode = mate_rr_output_get_preferred_mode (rr_output); if (!mode) { MateRRMode **modes = mate_rr_output_list_modes (rr_output); /* FIXME: we should pick the "best" mode here, where best is * sorted wrt * * - closest aspect ratio * - mode area * - refresh rate * - We may want to extend randrwrap so that get_preferred * returns that - although that could also depend on * the crtc. */ if (modes[0]) mode = modes[0]; } if (mode) { output->pref_width = mate_rr_mode_get_width (mode); output->pref_height = mate_rr_mode_get_height (mode); } else { /* Pick some random numbers. This should basically never happen */ output->pref_width = 1024; output->pref_height = 768; } } output->primary = mate_rr_output_get_is_primary (rr_output); g_ptr_array_add (a, output); } g_ptr_array_add (a, NULL); config->outputs = (MateOutputInfo **)g_ptr_array_free (a, FALSE); /* Walk the outputs computing the right-most edge of all * lit-up displays */ last_x = 0; for (i = 0; config->outputs[i] != NULL; ++i) { MateOutputInfo *output = config->outputs[i]; if (output->on) { last_x = MAX (last_x, output->x + output->width); } } /* Now position all off displays to the right of the * on displays */ for (i = 0; config->outputs[i] != NULL; ++i) { MateOutputInfo *output = config->outputs[i]; if (output->connected && !output->on) { output->x = last_x; last_x = output->x + output->width; } } g_assert (mate_rr_config_match (config, config)); return config; } static void output_free (MateOutputInfo *output) { if (output->display_name) g_free (output->display_name); if (output->name) g_free (output->name); g_free (output); } static MateOutputInfo * output_copy (MateOutputInfo *output) { MateOutputInfo *copy = g_new0 (MateOutputInfo, 1); *copy = *output; copy->name = g_strdup (output->name); copy->display_name = g_strdup (output->display_name); return copy; } static void outputs_free (MateOutputInfo **outputs) { int i; g_assert (outputs != NULL); for (i = 0; outputs[i] != NULL; ++i) output_free (outputs[i]); g_free (outputs); } void mate_rr_config_free (MateRRConfig *config) { g_return_if_fail (config != NULL); outputs_free (config->outputs); g_free (config); } static void configurations_free (MateRRConfig **configurations) { int i; g_assert (configurations != NULL); for (i = 0; configurations[i] != NULL; ++i) mate_rr_config_free (configurations[i]); g_free (configurations); } static gboolean parse_file_gmarkup (const gchar *filename, const GMarkupParser *parser, gpointer data, GError **err) { GMarkupParseContext *context = NULL; gchar *contents = NULL; gboolean result = TRUE; gsize len; if (!g_file_get_contents (filename, &contents, &len, err)) { result = FALSE; goto out; } context = g_markup_parse_context_new (parser, 0, data, NULL); if (!g_markup_parse_context_parse (context, contents, len, err)) { result = FALSE; goto out; } if (!g_markup_parse_context_end_parse (context, err)) { result = FALSE; goto out; } out: if (contents) g_free (contents); if (context) g_markup_parse_context_free (context); return result; } static gboolean output_match (MateOutputInfo *output1, MateOutputInfo *output2) { g_assert (output1 != NULL); g_assert (output2 != NULL); if (strcmp (output1->name, output2->name) != 0) return FALSE; if (strcmp (output1->vendor, output2->vendor) != 0) return FALSE; if (output1->product != output2->product) return FALSE; if (output1->serial != output2->serial) return FALSE; if (output1->connected != output2->connected) return FALSE; return TRUE; } static gboolean output_equal (MateOutputInfo *output1, MateOutputInfo *output2) { g_assert (output1 != NULL); g_assert (output2 != NULL); if (!output_match (output1, output2)) return FALSE; if (output1->on != output2->on) return FALSE; if (output1->on) { if (output1->width != output2->width) return FALSE; if (output1->height != output2->height) return FALSE; if (output1->rate != output2->rate) return FALSE; if (output1->x != output2->x) return FALSE; if (output1->y != output2->y) return FALSE; if (output1->rotation != output2->rotation) return FALSE; } return TRUE; } static MateOutputInfo * find_output (MateRRConfig *config, const char *name) { int i; for (i = 0; config->outputs[i] != NULL; ++i) { MateOutputInfo *output = config->outputs[i]; if (strcmp (name, output->name) == 0) return output; } return NULL; } /* Match means "these configurations apply to the same hardware * setups" */ gboolean mate_rr_config_match (MateRRConfig *c1, MateRRConfig *c2) { int i; for (i = 0; c1->outputs[i] != NULL; ++i) { MateOutputInfo *output1 = c1->outputs[i]; MateOutputInfo *output2; output2 = find_output (c2, output1->name); if (!output2 || !output_match (output1, output2)) return FALSE; } return TRUE; } /* Equal means "the configurations will result in the same * modes being set on the outputs" */ gboolean mate_rr_config_equal (MateRRConfig *c1, MateRRConfig *c2) { int i; for (i = 0; c1->outputs[i] != NULL; ++i) { MateOutputInfo *output1 = c1->outputs[i]; MateOutputInfo *output2; output2 = find_output (c2, output1->name); if (!output2 || !output_equal (output1, output2)) return FALSE; } return TRUE; } static MateOutputInfo ** make_outputs (MateRRConfig *config) { GPtrArray *outputs; MateOutputInfo *first_on; int i; outputs = g_ptr_array_new (); first_on = NULL; for (i = 0; config->outputs[i] != NULL; ++i) { MateOutputInfo *old = config->outputs[i]; MateOutputInfo *new = output_copy (old); if (old->on && !first_on) first_on = old; if (config->clone && new->on) { g_assert (first_on); new->width = first_on->width; new->height = first_on->height; new->rotation = first_on->rotation; new->x = 0; new->y = 0; } g_ptr_array_add (outputs, new); } g_ptr_array_add (outputs, NULL); return (MateOutputInfo **)g_ptr_array_free (outputs, FALSE); } gboolean mate_rr_config_applicable (MateRRConfig *configuration, MateRRScreen *screen, GError **error) { MateOutputInfo **outputs; CrtcAssignment *assign; gboolean result; g_return_val_if_fail (configuration != NULL, FALSE); g_return_val_if_fail (error == NULL || *error == NULL, FALSE); outputs = make_outputs (configuration); assign = crtc_assignment_new (screen, outputs, error); if (assign) { result = TRUE; crtc_assignment_free (assign); } else { result = FALSE; } outputs_free (outputs); return result; } /* Database management */ static void ensure_config_directory (void) { g_mkdir_with_parents (g_get_user_config_dir (), 0700); } char * mate_rr_config_get_backup_filename (void) { ensure_config_directory (); return g_build_filename (g_get_user_config_dir (), CONFIG_BACKUP_BASENAME, NULL); } char * mate_rr_config_get_intended_filename (void) { ensure_config_directory (); return g_build_filename (g_get_user_config_dir (), CONFIG_INTENDED_BASENAME, NULL); } static const char * get_rotation_name (MateRRRotation r) { if (r & MATE_RR_ROTATION_0) return "normal"; if (r & MATE_RR_ROTATION_90) return "left"; if (r & MATE_RR_ROTATION_180) return "upside_down"; if (r & MATE_RR_ROTATION_270) return "right"; return "normal"; } static const char * yes_no (int x) { return x? "yes" : "no"; } static const char * get_reflect_x (MateRRRotation r) { return yes_no (r & MATE_RR_REFLECT_X); } static const char * get_reflect_y (MateRRRotation r) { return yes_no (r & MATE_RR_REFLECT_Y); } static void emit_configuration (MateRRConfig *config, GString *string) { int j; g_string_append_printf (string, " \n"); g_string_append_printf (string, " %s\n", yes_no (config->clone)); for (j = 0; config->outputs[j] != NULL; ++j) { MateOutputInfo *output = config->outputs[j]; g_string_append_printf ( string, " \n", output->name); if (output->connected && *output->vendor != '\0') { g_string_append_printf ( string, " %s\n", output->vendor); g_string_append_printf ( string, " 0x%04x\n", output->product); g_string_append_printf ( string, " 0x%08x\n", output->serial); } /* An unconnected output which is on does not make sense */ if (output->connected && output->on) { g_string_append_printf ( string, " %d\n", output->width); g_string_append_printf ( string, " %d\n", output->height); g_string_append_printf ( string, " %d\n", output->rate); g_string_append_printf ( string, " %d\n", output->x); g_string_append_printf ( string, " %d\n", output->y); g_string_append_printf ( string, " %s\n", get_rotation_name (output->rotation)); g_string_append_printf ( string, " %s\n", get_reflect_x (output->rotation)); g_string_append_printf ( string, " %s\n", get_reflect_y (output->rotation)); g_string_append_printf ( string, " %s\n", yes_no (output->primary)); } g_string_append_printf (string, " \n"); } g_string_append_printf (string, " \n"); } void mate_rr_config_sanitize (MateRRConfig *config) { int i; int x_offset, y_offset; gboolean found; /* Offset everything by the top/left-most coordinate to * make sure the configuration starts at (0, 0) */ x_offset = y_offset = G_MAXINT; for (i = 0; config->outputs[i]; ++i) { MateOutputInfo *output = config->outputs[i]; if (output->on) { x_offset = MIN (x_offset, output->x); y_offset = MIN (y_offset, output->y); } } for (i = 0; config->outputs[i]; ++i) { MateOutputInfo *output = config->outputs[i]; if (output->on) { output->x -= x_offset; output->y -= y_offset; } } /* Only one primary, please */ found = FALSE; for (i = 0; config->outputs[i]; ++i) { if (config->outputs[i]->primary) { if (found) { config->outputs[i]->primary = FALSE; } else { found = TRUE; } } } } gboolean mate_rr_config_save (MateRRConfig *configuration, GError **error) { MateRRConfig **configurations; GString *output; int i; gchar *intended_filename; gchar *backup_filename; gboolean result; g_return_val_if_fail (configuration != NULL, FALSE); g_return_val_if_fail (error == NULL || *error == NULL, FALSE); output = g_string_new (""); backup_filename = mate_rr_config_get_backup_filename (); intended_filename = mate_rr_config_get_intended_filename (); configurations = configurations_read_from_file (intended_filename, NULL); /* NULL-GError */ g_string_append_printf (output, "\n"); if (configurations) { for (i = 0; configurations[i] != NULL; ++i) { if (!mate_rr_config_match (configurations[i], configuration)) emit_configuration (configurations[i], output); } configurations_free (configurations); } emit_configuration (configuration, output); g_string_append_printf (output, "\n"); /* backup the file first */ rename (intended_filename, backup_filename); /* no error checking because the intended file may not even exist */ result = g_file_set_contents (intended_filename, output->str, -1, error); if (!result) rename (backup_filename, intended_filename); /* no error checking because the backup may not even exist */ g_free (backup_filename); g_free (intended_filename); return result; } static MateRRConfig * mate_rr_config_copy (MateRRConfig *config) { MateRRConfig *copy = g_new0 (MateRRConfig, 1); int i; GPtrArray *array = g_ptr_array_new (); copy->clone = config->clone; for (i = 0; config->outputs[i] != NULL; ++i) g_ptr_array_add (array, output_copy (config->outputs[i])); g_ptr_array_add (array, NULL); copy->outputs = (MateOutputInfo **)g_ptr_array_free (array, FALSE); return copy; } static MateRRConfig * config_new_stored (MateRRScreen *screen, const char *filename, GError **error) { MateRRConfig *current; MateRRConfig **configs; MateRRConfig *result; g_return_val_if_fail (screen != NULL, NULL); g_return_val_if_fail (error == NULL || *error == NULL, NULL); current = mate_rr_config_new_current (screen); configs = configurations_read_from_file (filename, error); result = NULL; if (configs) { int i; for (i = 0; configs[i] != NULL; ++i) { if (mate_rr_config_match (configs[i], current)) { result = mate_rr_config_copy (configs[i]); break; } } if (result == NULL) g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_NO_MATCHING_CONFIG, _("none of the saved display configurations matched the active configuration")); configurations_free (configs); } mate_rr_config_free (current); return result; } MateRRConfig * mate_rr_config_new_stored (MateRRScreen *screen, GError **error) { char *intended_filename; MateRRConfig *config; intended_filename = mate_rr_config_get_intended_filename (); config = config_new_stored (screen, intended_filename, error); g_free (intended_filename); return config; } #ifndef MATE_DISABLE_DEPRECATED_SOURCE gboolean mate_rr_config_apply (MateRRConfig *config, MateRRScreen *screen, GError **error) { return mate_rr_config_apply_with_time (config, screen, GDK_CURRENT_TIME, error); } #endif gboolean mate_rr_config_apply_with_time (MateRRConfig *config, MateRRScreen *screen, guint32 timestamp, GError **error) { CrtcAssignment *assignment; MateOutputInfo **outputs; gboolean result = FALSE; outputs = make_outputs (config); assignment = crtc_assignment_new (screen, outputs, error); outputs_free (outputs); if (assignment) { if (crtc_assignment_apply (assignment, timestamp, error)) result = TRUE; crtc_assignment_free (assignment); gdk_flush (); } return result; } #ifndef MATE_DISABLE_DEPRECATED_SOURCE /** * mate_rr_config_apply_stored: * @screen: A #MateRRScreen * @error: Location to store error, or %NULL * * See the documentation for mate_rr_config_apply_from_filename(). This * function simply calls that other function with a filename of * mate_rr_config_get_intended_filename(). * @Deprecated: 2.26: Use mate_rr_config_apply_from_filename() instead and pass it * the filename from mate_rr_config_get_intended_filename(). */ gboolean mate_rr_config_apply_stored (MateRRScreen *screen, GError **error) { char *filename; gboolean result; filename = mate_rr_config_get_intended_filename (); result = mate_rr_config_apply_from_filename_with_time (screen, filename, GDK_CURRENT_TIME, error); g_free (filename); return result; } #endif #ifndef MATE_DISABLE_DEPRECATED_SOURCE /* mate_rr_config_apply_from_filename: * @screen: A #MateRRScreen * @filename: Path of the file to look in for stored RANDR configurations. * @error: Location to store error, or %NULL * * First, this function refreshes the @screen to match the current RANDR * configuration from the X server. Then, it tries to load the file in * @filename and looks for suitable matching RANDR configurations in the file; * if one is found, that configuration will be applied to the current set of * RANDR outputs. * * Typically, @filename is the result of mate_rr_config_get_intended_filename() or * mate_rr_config_get_backup_filename(). * * Returns: TRUE if the RANDR configuration was loaded and applied from * $(XDG_CONFIG_HOME)/monitors.xml, or FALSE otherwise: * * If the current RANDR configuration could not be refreshed, the @error will * have a domain of #MATE_RR_ERROR and a corresponding error code. * * If the file in question is loaded successfully but the configuration cannot * be applied, the @error will have a domain of #MATE_RR_ERROR. Note that an * error code of #MATE_RR_ERROR_NO_MATCHING_CONFIG is not a real error; it * simply means that there were no stored configurations that match the current * set of RANDR outputs. * * If the file in question cannot be loaded, the @error will have a domain of * #G_FILE_ERROR. Note that an error code of G_FILE_ERROR_NOENT is not really * an error, either; it means that there was no stored configuration file and so * nothing is changed. * * @Deprecated: 2.28: use mate_rr_config_apply_from_filename_with_time() instead. */ gboolean mate_rr_config_apply_from_filename (MateRRScreen *screen, const char *filename, GError **error) { return mate_rr_config_apply_from_filename_with_time (screen, filename, GDK_CURRENT_TIME, error); } #endif /* mate_rr_config_apply_from_filename_with_time: * @screen: A #MateRRScreen * @filename: Path of the file to look in for stored RANDR configurations. * @timestamp: X server timestamp from the event that causes the screen configuration to change (a user's button press, for example) * @error: Location to store error, or %NULL * * First, this function refreshes the @screen to match the current RANDR * configuration from the X server. Then, it tries to load the file in * @filename and looks for suitable matching RANDR configurations in the file; * if one is found, that configuration will be applied to the current set of * RANDR outputs. * * Typically, @filename is the result of mate_rr_config_get_intended_filename() or * mate_rr_config_get_backup_filename(). * * Returns: TRUE if the RANDR configuration was loaded and applied from * $(XDG_CONFIG_HOME)/monitors.xml, or FALSE otherwise: * * If the current RANDR configuration could not be refreshed, the @error will * have a domain of #MATE_RR_ERROR and a corresponding error code. * * If the file in question is loaded successfully but the configuration cannot * be applied, the @error will have a domain of #MATE_RR_ERROR. Note that an * error code of #MATE_RR_ERROR_NO_MATCHING_CONFIG is not a real error; it * simply means that there were no stored configurations that match the current * set of RANDR outputs. * * If the file in question cannot be loaded, the @error will have a domain of * #G_FILE_ERROR. Note that an error code of G_FILE_ERROR_NOENT is not really * an error, either; it means that there was no stored configuration file and so * nothing is changed. */ gboolean mate_rr_config_apply_from_filename_with_time (MateRRScreen *screen, const char *filename, guint32 timestamp, GError **error) { MateRRConfig *stored; GError *my_error; g_return_val_if_fail (screen != NULL, FALSE); g_return_val_if_fail (filename != NULL, FALSE); g_return_val_if_fail (error == NULL || *error == NULL, FALSE); my_error = NULL; if (!mate_rr_screen_refresh (screen, &my_error)) { if (my_error) { g_propagate_error (error, my_error); return FALSE; /* This is a genuine error */ } /* This means the screen didn't change, so just proceed */ } stored = config_new_stored (screen, filename, error); if (stored) { gboolean result; result = mate_rr_config_apply_with_time (stored, screen, timestamp, error); mate_rr_config_free (stored); return result; } else { return FALSE; } } /* * CRTC assignment */ typedef struct CrtcInfo CrtcInfo; struct CrtcInfo { MateRRMode *mode; int x; int y; MateRRRotation rotation; GPtrArray *outputs; }; struct CrtcAssignment { MateRRScreen *screen; GHashTable *info; MateRROutput *primary; }; static gboolean can_clone (CrtcInfo *info, MateRROutput *output) { int i; for (i = 0; i < info->outputs->len; ++i) { MateRROutput *clone = info->outputs->pdata[i]; if (!mate_rr_output_can_clone (clone, output)) return FALSE; } return TRUE; } static gboolean crtc_assignment_assign (CrtcAssignment *assign, MateRRCrtc *crtc, MateRRMode *mode, int x, int y, MateRRRotation rotation, gboolean primary, MateRROutput *output, GError **error) { CrtcInfo *info = g_hash_table_lookup (assign->info, crtc); guint32 crtc_id; const char *output_name; crtc_id = mate_rr_crtc_get_id (crtc); output_name = mate_rr_output_get_name (output); if (!mate_rr_crtc_can_drive_output (crtc, output)) { g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("CRTC %d cannot drive output %s"), crtc_id, output_name); return FALSE; } if (!mate_rr_output_supports_mode (output, mode)) { g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("output %s does not support mode %dx%d@%dHz"), output_name, mate_rr_mode_get_width (mode), mate_rr_mode_get_height (mode), mate_rr_mode_get_freq (mode)); return FALSE; } if (!mate_rr_crtc_supports_rotation (crtc, rotation)) { g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("CRTC %d does not support rotation=%s"), crtc_id, get_rotation_name (rotation)); return FALSE; } if (info) { if (!(info->mode == mode && info->x == x && info->y == y && info->rotation == rotation)) { g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("output %s does not have the same parameters as another cloned output:\n" "existing mode = %d, new mode = %d\n" "existing coordinates = (%d, %d), new coordinates = (%d, %d)\n" "existing rotation = %s, new rotation = %s"), output_name, mate_rr_mode_get_id (info->mode), mate_rr_mode_get_id (mode), info->x, info->y, x, y, get_rotation_name (info->rotation), get_rotation_name (rotation)); return FALSE; } if (!can_clone (info, output)) { g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("cannot clone to output %s"), output_name); return FALSE; } g_ptr_array_add (info->outputs, output); if (primary && !assign->primary) { assign->primary = output; } return TRUE; } else { CrtcInfo *info = g_new0 (CrtcInfo, 1); info->mode = mode; info->x = x; info->y = y; info->rotation = rotation; info->outputs = g_ptr_array_new (); g_ptr_array_add (info->outputs, output); g_hash_table_insert (assign->info, crtc, info); if (primary && !assign->primary) { assign->primary = output; } return TRUE; } } static void crtc_assignment_unassign (CrtcAssignment *assign, MateRRCrtc *crtc, MateRROutput *output) { CrtcInfo *info = g_hash_table_lookup (assign->info, crtc); if (info) { g_ptr_array_remove (info->outputs, output); if (assign->primary == output) { assign->primary = NULL; } if (info->outputs->len == 0) g_hash_table_remove (assign->info, crtc); } } static void crtc_assignment_free (CrtcAssignment *assign) { g_hash_table_destroy (assign->info); g_free (assign); } typedef struct { guint32 timestamp; gboolean has_error; GError **error; } ConfigureCrtcState; static void configure_crtc (gpointer key, gpointer value, gpointer data) { MateRRCrtc *crtc = key; CrtcInfo *info = value; ConfigureCrtcState *state = data; if (state->has_error) return; if (!mate_rr_crtc_set_config_with_time (crtc, state->timestamp, info->x, info->y, info->mode, info->rotation, (MateRROutput **)info->outputs->pdata, info->outputs->len, state->error)) state->has_error = TRUE; } static gboolean mode_is_rotated (CrtcInfo *info) { if ((info->rotation & MATE_RR_ROTATION_270) || (info->rotation & MATE_RR_ROTATION_90)) { return TRUE; } return FALSE; } static gboolean crtc_is_rotated (MateRRCrtc *crtc) { MateRRRotation r = mate_rr_crtc_get_current_rotation (crtc); if ((r & MATE_RR_ROTATION_270) || (r & MATE_RR_ROTATION_90)) { return TRUE; } return FALSE; } static void accumulate_error (GString *accumulated_error, GError *error) { g_string_append_printf (accumulated_error, " %s\n", error->message); g_error_free (error); } /* Check whether the given set of settings can be used * at the same time -- ie. whether there is an assignment * of CRTC's to outputs. * * Brute force - the number of objects involved is small * enough that it doesn't matter. */ static gboolean real_assign_crtcs (MateRRScreen *screen, MateOutputInfo **outputs, CrtcAssignment *assignment, GError **error) { MateRRCrtc **crtcs = mate_rr_screen_list_crtcs (screen); MateOutputInfo *output; int i; gboolean tried_mode; GError *my_error; GString *accumulated_error; gboolean success; output = *outputs; if (!output) return TRUE; /* It is always allowed for an output to be turned off */ if (!output->on) { return real_assign_crtcs (screen, outputs + 1, assignment, error); } success = FALSE; tried_mode = FALSE; accumulated_error = g_string_new (NULL); for (i = 0; crtcs[i] != NULL; ++i) { MateRRCrtc *crtc = crtcs[i]; int crtc_id = mate_rr_crtc_get_id (crtc); int pass; g_string_append_printf (accumulated_error, _("Trying modes for CRTC %d\n"), crtc_id); /* Make two passes, one where frequencies must match, then * one where they don't have to */ for (pass = 0; pass < 2; ++pass) { MateRROutput *mate_rr_output = mate_rr_screen_get_output_by_name (screen, output->name); MateRRMode **modes = mate_rr_output_list_modes (mate_rr_output); int j; for (j = 0; modes[j] != NULL; ++j) { MateRRMode *mode = modes[j]; int mode_width; int mode_height; int mode_freq; mode_width = mate_rr_mode_get_width (mode); mode_height = mate_rr_mode_get_height (mode); mode_freq = mate_rr_mode_get_freq (mode); g_string_append_printf (accumulated_error, _("CRTC %d: trying mode %dx%d@%dHz with output at %dx%d@%dHz (pass %d)\n"), crtc_id, mode_width, mode_height, mode_freq, output->width, output->height, output->rate, pass); if (mode_width == output->width && mode_height == output->height && (pass == 1 || mode_freq == output->rate)) { tried_mode = TRUE; my_error = NULL; if (crtc_assignment_assign ( assignment, crtc, modes[j], output->x, output->y, output->rotation, output->primary, mate_rr_output, &my_error)) { my_error = NULL; if (real_assign_crtcs (screen, outputs + 1, assignment, &my_error)) { success = TRUE; goto out; } else accumulate_error (accumulated_error, my_error); crtc_assignment_unassign (assignment, crtc, mate_rr_output); } else accumulate_error (accumulated_error, my_error); } } } } out: if (success) g_string_free (accumulated_error, TRUE); else { char *str; str = g_string_free (accumulated_error, FALSE); if (tried_mode) g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("could not assign CRTCs to outputs:\n%s"), str); else g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_CRTC_ASSIGNMENT, _("none of the selected modes were compatible with the possible modes:\n%s"), str); g_free (str); } return success; } static void crtc_info_free (CrtcInfo *info) { g_ptr_array_free (info->outputs, TRUE); g_free (info); } static void get_required_virtual_size (CrtcAssignment *assign, int *width, int *height) { GList *active_crtcs = g_hash_table_get_keys (assign->info); GList *list; int d; if (!width) width = &d; if (!height) height = &d; /* Compute size of the screen */ *width = *height = 1; for (list = active_crtcs; list != NULL; list = list->next) { MateRRCrtc *crtc = list->data; CrtcInfo *info = g_hash_table_lookup (assign->info, crtc); int w, h; w = mate_rr_mode_get_width (info->mode); h = mate_rr_mode_get_height (info->mode); if (mode_is_rotated (info)) { int tmp = h; h = w; w = tmp; } *width = MAX (*width, info->x + w); *height = MAX (*height, info->y + h); } g_list_free (active_crtcs); } static CrtcAssignment * crtc_assignment_new (MateRRScreen *screen, MateOutputInfo **outputs, GError **error) { CrtcAssignment *assignment = g_new0 (CrtcAssignment, 1); assignment->info = g_hash_table_new_full ( g_direct_hash, g_direct_equal, NULL, (GFreeFunc)crtc_info_free); if (real_assign_crtcs (screen, outputs, assignment, error)) { int width, height; int min_width, max_width, min_height, max_height; int required_pixels, min_pixels, max_pixels; get_required_virtual_size (assignment, &width, &height); mate_rr_screen_get_ranges ( screen, &min_width, &max_width, &min_height, &max_height); required_pixels = width * height; min_pixels = min_width * min_height; max_pixels = max_width * max_height; if (required_pixels < min_pixels || required_pixels > max_pixels) { g_set_error (error, MATE_RR_ERROR, MATE_RR_ERROR_BOUNDS_ERROR, /* Translators: the "requested", "minimum", and * "maximum" words here are not keywords; please * translate them as usual. */ _("required virtual size does not fit available size: " "requested=(%d, %d), minimum=(%d, %d), maximum=(%d, %d)"), width, height, min_width, min_height, max_width, max_height); goto fail; } assignment->screen = screen; return assignment; } fail: crtc_assignment_free (assignment); return NULL; } static gboolean crtc_assignment_apply (CrtcAssignment *assign, guint32 timestamp, GError **error) { MateRRCrtc **all_crtcs = mate_rr_screen_list_crtcs (assign->screen); int width, height; int i; int min_width, max_width, min_height, max_height; int width_mm, height_mm; gboolean success = TRUE; /* Compute size of the screen */ get_required_virtual_size (assign, &width, &height); mate_rr_screen_get_ranges ( assign->screen, &min_width, &max_width, &min_height, &max_height); /* We should never get here if the dimensions don't fit in the virtual size, * but just in case we do, fix it up. */ width = MAX (min_width, width); width = MIN (max_width, width); height = MAX (min_height, height); height = MIN (max_height, height); /* FMQ: do we need to check the sizes instead of clamping them? */ /* Grab the server while we fiddle with the CRTCs and the screen, so that * apps that listen for RANDR notifications will only receive the final * status. */ gdk_x11_display_grab (gdk_screen_get_display (assign->screen->gdk_screen)); /* Turn off all crtcs that are currently displaying outside the new screen, * or are not used in the new setup */ for (i = 0; all_crtcs[i] != NULL; ++i) { MateRRCrtc *crtc = all_crtcs[i]; MateRRMode *mode = mate_rr_crtc_get_current_mode (crtc); int x, y; if (mode) { int w, h; mate_rr_crtc_get_position (crtc, &x, &y); w = mate_rr_mode_get_width (mode); h = mate_rr_mode_get_height (mode); if (crtc_is_rotated (crtc)) { int tmp = h; h = w; w = tmp; } if (x + w > width || y + h > height || !g_hash_table_lookup (assign->info, crtc)) { if (!mate_rr_crtc_set_config_with_time (crtc, timestamp, 0, 0, NULL, MATE_RR_ROTATION_0, NULL, 0, error)) { success = FALSE; break; } } } } /* The 'physical size' of an X screen is meaningless if that screen * can consist of many monitors. So just pick a size that make the * dpi 96. * * Firefox and Evince apparently believe what X tells them. */ width_mm = (width / 96.0) * 25.4 + 0.5; height_mm = (height / 96.0) * 25.4 + 0.5; if (success) { ConfigureCrtcState state; mate_rr_screen_set_size (assign->screen, width, height, width_mm, height_mm); state.timestamp = timestamp; state.has_error = FALSE; state.error = error; g_hash_table_foreach (assign->info, configure_crtc, &state); success = !state.has_error; } mate_rr_screen_set_primary_output (assign->screen, assign->primary); gdk_x11_display_ungrab (gdk_screen_get_display (assign->screen->gdk_screen)); return success; }