/* * vim:ts=4:sw=4:expandtab * * © 2010 Michael Stapelberg * * See LICENSE for licensing information * */ #include #include #include #include #include #include #include #include #include #include "i3lock.h" #include "xcb.h" #include "unlock_indicator.h" #include "xinerama.h" #include "tinyexpr.h" /* clock stuff */ #include extern double circle_radius; #define BUTTON_RADIUS (circle_radius) #define BUTTON_SPACE (BUTTON_RADIUS + 5) #define BUTTON_CENTER (BUTTON_RADIUS + 5) #define BUTTON_DIAMETER (2 * BUTTON_SPACE) #define CLOCK_WIDTH 400 #define CLOCK_HEIGHT 200 /******************************************************************************* * Variables defined in i3lock.c. ******************************************************************************/ extern bool debug_mode; /* The current position in the input buffer. Useful to determine if any * characters of the password have already been entered or not. */ int input_position; /* The lock window. */ extern xcb_window_t win; /* The current resolution of the X11 root window. */ extern uint32_t last_resolution[2]; /* Whether the unlock indicator is enabled (defaults to true). */ extern bool unlock_indicator; /* List of pressed modifiers, or NULL if none are pressed. */ extern char *modifier_string; /* A Cairo surface containing the specified image (-i), if any. */ extern cairo_surface_t *img; extern cairo_surface_t *blur_img; /* Whether the image should be tiled. */ extern bool tile; /* The background color to use (in hex). */ extern char color[7]; /* indicator color options */ extern char insidevercolor[9]; extern char insidewrongcolor[9]; extern char insidecolor[9]; extern char ringvercolor[9]; extern char ringwrongcolor[9]; extern char ringcolor[9]; extern char linecolor[9]; extern char textcolor[9]; extern char timecolor[9]; extern char datecolor[9]; extern char keyhlcolor[9]; extern char bshlcolor[9]; extern char separatorcolor[9]; extern int internal_line_source; extern int screen_number; extern float refresh_rate; extern bool show_clock; extern bool show_indicator; extern char time_format[32]; extern char date_format[32]; extern char time_font[32]; extern char date_font[32]; extern char ind_x_expr[32]; extern char ind_y_expr[32]; extern char time_x_expr[32]; extern char time_y_expr[32]; extern char date_x_expr[32]; extern char date_y_expr[32]; extern double time_size; extern double date_size; extern double text_size; extern double modifier_size; extern char* verif_text; extern char* wrong_text; /* Whether the failed attempts should be displayed. */ extern bool show_failed_attempts; /* Number of failed unlock attempts. */ extern int failed_attempts; /******************************************************************************* * Variables defined in xcb.c. ******************************************************************************/ /* The root screen, to determine the DPI. */ extern xcb_screen_t *screen; /******************************************************************************* * Local variables. ******************************************************************************/ /* time stuff */ static struct ev_periodic *time_redraw_tick; /* Cache the screen’s visual, necessary for creating a Cairo context. */ static xcb_visualtype_t *vistype; /* Maintain the current unlock/PAM state to draw the appropriate unlock * indicator. */ unlock_state_t unlock_state; auth_state_t auth_state; /* * Returns the scaling factor of the current screen. E.g., on a 227 DPI MacBook * Pro 13" Retina screen, the scaling factor is 227/96 = 2.36. * */ static double scaling_factor(void) { const int dpi = (double)screen->height_in_pixels * 25.4 / (double)screen->height_in_millimeters; return (dpi / 96.0); } /* * Draws global image with fill color onto a pixmap with the given * resolution and returns it. * */ xcb_pixmap_t draw_image(uint32_t *resolution) { xcb_pixmap_t bg_pixmap = XCB_NONE; int button_diameter_physical = ceil(scaling_factor() * BUTTON_DIAMETER); int clock_width_physical = ceil(scaling_factor() * CLOCK_WIDTH); int clock_height_physical = ceil(scaling_factor() * CLOCK_HEIGHT); DEBUG("scaling_factor is %.f, physical diameter is %d px\n", scaling_factor(), button_diameter_physical); if (!vistype) vistype = get_root_visual_type(screen); bg_pixmap = create_bg_pixmap(conn, screen, resolution, color); /* Initialize cairo: Create one in-memory surface to render the unlock * indicator on, create one XCB surface to actually draw (one or more, * depending on the amount of screens) unlock indicators on. * create two more surfaces for time and date display */ cairo_surface_t *output = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, button_diameter_physical, button_diameter_physical); cairo_t *ctx = cairo_create(output); cairo_surface_t *time_output = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, clock_width_physical, clock_height_physical); cairo_t *time_ctx = cairo_create(time_output); cairo_surface_t *date_output = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, clock_width_physical, clock_height_physical); cairo_t *date_ctx = cairo_create(date_output); cairo_surface_t *xcb_output = cairo_xcb_surface_create(conn, bg_pixmap, vistype, resolution[0], resolution[1]); cairo_t *xcb_ctx = cairo_create(xcb_output); if (blur_img || img) { if (blur_img) { cairo_set_source_surface(xcb_ctx, blur_img, 0, 0); cairo_paint(xcb_ctx); } if (img) { if (!tile) { cairo_set_source_surface(xcb_ctx, img, 0, 0); cairo_paint(xcb_ctx); } else { /* create a pattern and fill a rectangle as big as the screen */ cairo_pattern_t *pattern; pattern = cairo_pattern_create_for_surface(img); cairo_set_source(xcb_ctx, pattern); cairo_pattern_set_extend(pattern, CAIRO_EXTEND_REPEAT); cairo_rectangle(xcb_ctx, 0, 0, resolution[0], resolution[1]); cairo_fill(xcb_ctx); cairo_pattern_destroy(pattern); } } } else { char strgroups[3][3] = {{color[0], color[1], '\0'}, {color[2], color[3], '\0'}, {color[4], color[5], '\0'}}; uint32_t rgb16[3] = {(strtol(strgroups[0], NULL, 16)), (strtol(strgroups[1], NULL, 16)), (strtol(strgroups[2], NULL, 16))}; cairo_set_source_rgb(xcb_ctx, rgb16[0] / 255.0, rgb16[1] / 255.0, rgb16[2] / 255.0); cairo_rectangle(xcb_ctx, 0, 0, resolution[0], resolution[1]); cairo_fill(xcb_ctx); } /* build indicator color arrays */ char strgroupsiv[4][3] = {{insidevercolor[0], insidevercolor[1], '\0'}, {insidevercolor[2], insidevercolor[3], '\0'}, {insidevercolor[4], insidevercolor[5], '\0'}, {insidevercolor[6], insidevercolor[7], '\0'}}; uint32_t insidever16[4] = {(strtol(strgroupsiv[0], NULL, 16)), (strtol(strgroupsiv[1], NULL, 16)), (strtol(strgroupsiv[2], NULL, 16)), (strtol(strgroupsiv[3], NULL, 16))}; char strgroupsiw[4][3] = {{insidewrongcolor[0], insidewrongcolor[1], '\0'}, {insidewrongcolor[2], insidewrongcolor[3], '\0'}, {insidewrongcolor[4], insidewrongcolor[5], '\0'}, {insidewrongcolor[6], insidewrongcolor[7], '\0'}}; uint32_t insidewrong16[4] = {(strtol(strgroupsiw[0], NULL, 16)), (strtol(strgroupsiw[1], NULL, 16)), (strtol(strgroupsiw[2], NULL, 16)), (strtol(strgroupsiw[3], NULL, 16))}; char strgroupsi[4][3] = {{insidecolor[0], insidecolor[1], '\0'}, {insidecolor[2], insidecolor[3], '\0'}, {insidecolor[4], insidecolor[5], '\0'}, {insidecolor[6], insidecolor[7], '\0'}}; uint32_t inside16[4] = {(strtol(strgroupsi[0], NULL, 16)), (strtol(strgroupsi[1], NULL, 16)), (strtol(strgroupsi[2], NULL, 16)), (strtol(strgroupsi[3], NULL, 16))}; char strgroupsrv[4][3] = {{ringvercolor[0], ringvercolor[1], '\0'}, {ringvercolor[2], ringvercolor[3], '\0'}, {ringvercolor[4], ringvercolor[5], '\0'}, {ringvercolor[6], ringvercolor[7], '\0'}}; uint32_t ringver16[4] = {(strtol(strgroupsrv[0], NULL, 16)), (strtol(strgroupsrv[1], NULL, 16)), (strtol(strgroupsrv[2], NULL, 16)), (strtol(strgroupsrv[3], NULL, 16))}; char strgroupsrw[4][3] = {{ringwrongcolor[0], ringwrongcolor[1], '\0'}, {ringwrongcolor[2], ringwrongcolor[3], '\0'}, {ringwrongcolor[4], ringwrongcolor[5], '\0'}, {ringwrongcolor[6], ringwrongcolor[7], '\0'}}; uint32_t ringwrong16[4] = {(strtol(strgroupsrw[0], NULL, 16)), (strtol(strgroupsrw[1], NULL, 16)), (strtol(strgroupsrw[2], NULL, 16)), (strtol(strgroupsrw[3], NULL, 16))}; char strgroupsr[4][3] = {{ringcolor[0], ringcolor[1], '\0'}, {ringcolor[2], ringcolor[3], '\0'}, {ringcolor[4], ringcolor[5], '\0'}, {ringcolor[6], ringcolor[7], '\0'}}; uint32_t ring16[4] = {(strtol(strgroupsr[0], NULL, 16)), (strtol(strgroupsr[1], NULL, 16)), (strtol(strgroupsr[2], NULL, 16)), (strtol(strgroupsr[3], NULL, 16))}; char strgroupsl[4][3] = {{linecolor[0], linecolor[1], '\0'}, {linecolor[2], linecolor[3], '\0'}, {linecolor[4], linecolor[5], '\0'}, {linecolor[6], linecolor[7], '\0'}}; uint32_t line16[4] = {(strtol(strgroupsl[0], NULL, 16)), (strtol(strgroupsl[1], NULL, 16)), (strtol(strgroupsl[2], NULL, 16)), (strtol(strgroupsl[3], NULL, 16))}; char strgroupst[4][3] = {{textcolor[0], textcolor[1], '\0'}, {textcolor[2], textcolor[3], '\0'}, {textcolor[4], textcolor[5], '\0'}, {textcolor[6], textcolor[7], '\0'}}; uint32_t text16[4] = {(strtol(strgroupst[0], NULL, 16)), (strtol(strgroupst[1], NULL, 16)), (strtol(strgroupst[2], NULL, 16)), (strtol(strgroupst[3], NULL, 16))}; char strgroupsc[4][3] = {{timecolor[0], timecolor[1], '\0'}, {timecolor[2], timecolor[3], '\0'}, {timecolor[4], timecolor[5], '\0'}, {timecolor[6], timecolor[7], '\0'}}; uint32_t time16[4] = {(strtol(strgroupsc[0], NULL, 16)), (strtol(strgroupsc[1], NULL, 16)), (strtol(strgroupsc[2], NULL, 16)), (strtol(strgroupsc[3], NULL, 16))}; char strgroupsd[4][3] = {{datecolor[0], datecolor[1], '\0'}, {datecolor[2], datecolor[3], '\0'}, {datecolor[4], datecolor[5], '\0'}, {datecolor[6], datecolor[7], '\0'}}; uint32_t date16[4] = {(strtol(strgroupsd[0], NULL, 16)), (strtol(strgroupsd[1], NULL, 16)), (strtol(strgroupsd[2], NULL, 16)), (strtol(strgroupsd[3], NULL, 16))}; char strgroupsk[4][3] = {{keyhlcolor[0], keyhlcolor[1], '\0'}, {keyhlcolor[2], keyhlcolor[3], '\0'}, {keyhlcolor[4], keyhlcolor[5], '\0'}, {keyhlcolor[6], keyhlcolor[7], '\0'}}; uint32_t keyhl16[4] = {(strtol(strgroupsk[0], NULL, 16)), (strtol(strgroupsk[1], NULL, 16)), (strtol(strgroupsk[2], NULL, 16)), (strtol(strgroupsk[3], NULL, 16))}; char strgroupsb[4][3] = {{bshlcolor[0], bshlcolor[1], '\0'}, {bshlcolor[2], bshlcolor[3], '\0'}, {bshlcolor[4], bshlcolor[5], '\0'}, {bshlcolor[6], bshlcolor[7], '\0'}}; uint32_t bshl16[4] = {(strtol(strgroupsb[0], NULL, 16)), (strtol(strgroupsb[1], NULL, 16)), (strtol(strgroupsb[2], NULL, 16)), (strtol(strgroupsb[3], NULL, 16))}; char strgroupss[4][3] = {{separatorcolor[0], separatorcolor[1], '\0'}, {separatorcolor[2], separatorcolor[3], '\0'}, {separatorcolor[4], separatorcolor[5], '\0'}, {separatorcolor[6], separatorcolor[7], '\0'}}; uint32_t sep16[4] = {(strtol(strgroupss[0], NULL, 16)), (strtol(strgroupss[1], NULL, 16)), (strtol(strgroupss[2], NULL, 16)), (strtol(strgroupss[3], NULL, 16))}; /* https://github.com/ravinrabbid/i3lock-clock/commit/0de3a411fa5249c3a4822612c2d6c476389a1297 */ time_t rawtime; struct tm* timeinfo; bool unlock_indic_text = false; time(&rawtime); timeinfo = localtime(&rawtime); if (unlock_indicator && (unlock_state >= STATE_KEY_PRESSED || auth_state > STATE_AUTH_IDLE || show_indicator)) { cairo_scale(ctx, scaling_factor(), scaling_factor()); /* Draw a (centered) circle with transparent background. */ cairo_set_line_width(ctx, 7.0); cairo_arc(ctx, BUTTON_CENTER /* x */, BUTTON_CENTER /* y */, BUTTON_RADIUS /* radius */, 0 /* start */, 2 * M_PI /* end */); /* Use the appropriate color for the different PAM states * (currently verifying, wrong password, or default) */ switch (auth_state) { case STATE_AUTH_VERIFY: case STATE_AUTH_LOCK: cairo_set_source_rgba(ctx, (double)insidever16[0]/255, (double)insidever16[1]/255, (double)insidever16[2]/255, (double)insidever16[3]/255); break; case STATE_AUTH_WRONG: case STATE_I3LOCK_LOCK_FAILED: cairo_set_source_rgba(ctx, (double)insidewrong16[0]/255, (double)insidewrong16[1]/255, (double)insidewrong16[2]/255, (double)insidewrong16[3]/255); break; default: cairo_set_source_rgba(ctx, (double)inside16[0]/255, (double)inside16[1]/255, (double)inside16[2]/255, (double)inside16[3]/255); break; } cairo_fill_preserve(ctx); switch (auth_state) { case STATE_AUTH_VERIFY: case STATE_AUTH_LOCK: cairo_set_source_rgba(ctx, (double)ringver16[0]/255, (double)ringver16[1]/255, (double)ringver16[2]/255, (double)ringver16[3]/255); if (internal_line_source == 1) { line16[0] = ringver16[0]; line16[1] = ringver16[1]; line16[2] = ringver16[2]; line16[3] = ringver16[3]; } break; case STATE_AUTH_WRONG: case STATE_I3LOCK_LOCK_FAILED: cairo_set_source_rgba(ctx, (double)ringwrong16[0]/255, (double)ringwrong16[1]/255, (double)ringwrong16[2]/255, (double)ringwrong16[3]/255); if (internal_line_source == 1) { line16[0] = ringwrong16[0]; line16[1] = ringwrong16[1]; line16[2] = ringwrong16[2]; line16[3] = ringwrong16[3]; } break; case STATE_AUTH_IDLE: cairo_set_source_rgba(ctx, (double)ring16[0]/255, (double)ring16[1]/255, (double)ring16[2]/255, (double)ring16[3]/255); if (internal_line_source == 1) { line16[0] = ring16[0]; line16[1] = ring16[1]; line16[2] = ring16[2]; line16[3] = ring16[3]; } break; } cairo_stroke(ctx); /* Draw an inner separator line. */ if (internal_line_source != 2) { //pretty sure this only needs drawn if it's being drawn over the inside? cairo_set_source_rgba(ctx, (double)line16[0]/255, (double)line16[1]/255, (double)line16[2]/255, (double)line16[3]/255); cairo_set_line_width(ctx, 2.0); cairo_arc(ctx, BUTTON_CENTER /* x */, BUTTON_CENTER /* y */, BUTTON_RADIUS - 5 /* radius */, 0, 2 * M_PI); cairo_stroke(ctx); } cairo_set_line_width(ctx, 10.0); char *text = NULL; /* We don't want to show more than a 3-digit number. */ char buf[4]; cairo_set_source_rgba(ctx, (double)text16[0]/255, (double)text16[1]/255, (double)text16[2]/255, (double)text16[3]/255); cairo_select_font_face(ctx, "sans-serif", CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_NORMAL); cairo_set_font_size(ctx, text_size); switch (auth_state) { case STATE_AUTH_VERIFY: text = verif_text; break; case STATE_AUTH_LOCK: text = "locking…"; break; case STATE_AUTH_WRONG: text = wrong_text; break; case STATE_I3LOCK_LOCK_FAILED: text = "lock failed!"; break; default: if (show_failed_attempts && failed_attempts > 0) { if (failed_attempts > 999) { text = "> 999"; } else { snprintf(buf, sizeof(buf), "%d", failed_attempts); text = buf; } cairo_set_font_size(ctx, 32.0); } break; } if (text) { unlock_indic_text = true; cairo_text_extents_t extents; double x, y; cairo_text_extents(ctx, text, &extents); x = BUTTON_CENTER - ((extents.width / 2) + extents.x_bearing); y = BUTTON_CENTER - ((extents.height / 2) + extents.y_bearing); cairo_move_to(ctx, x, y); cairo_show_text(ctx, text); cairo_close_path(ctx); } if (auth_state == STATE_AUTH_WRONG && (modifier_string != NULL)) { cairo_text_extents_t extents; double x, y; cairo_set_font_size(ctx, modifier_size); cairo_text_extents(ctx, modifier_string, &extents); x = BUTTON_CENTER - ((extents.width / 2) + extents.x_bearing); y = BUTTON_CENTER - ((extents.height / 2) + extents.y_bearing) + 28.0; cairo_move_to(ctx, x, y); cairo_show_text(ctx, modifier_string); cairo_close_path(ctx); } /* After the user pressed any valid key or the backspace key, we * highlight a random part of the unlock indicator to confirm this * keypress. */ if (unlock_state == STATE_KEY_ACTIVE || unlock_state == STATE_BACKSPACE_ACTIVE) { cairo_set_line_width(ctx, 7.0); cairo_new_sub_path(ctx); double highlight_start = (rand() % (int)(2 * M_PI * 100)) / 100.0; cairo_arc(ctx, BUTTON_CENTER /* x */, BUTTON_CENTER /* y */, BUTTON_RADIUS /* radius */, highlight_start, highlight_start + (M_PI / 3.0)); if (unlock_state == STATE_KEY_ACTIVE) { /* For normal keys, we use a lighter green. */ //lol no cairo_set_source_rgba(ctx, (double)keyhl16[0]/255, (double)keyhl16[1]/255, (double)keyhl16[2]/255, (double)keyhl16[3]/255); } else { /* For backspace, we use red. */ //lol no cairo_set_source_rgba(ctx, (double)bshl16[0]/255, (double)bshl16[1]/255, (double)bshl16[2]/255, (double)bshl16[3]/255); } cairo_stroke(ctx); /* Draw two little separators for the highlighted part of the * unlock indicator. */ cairo_set_source_rgba(ctx, (double)sep16[0]/255, (double)sep16[1]/255, (double)sep16[2]/255, (double)sep16[3]/255); cairo_arc(ctx, BUTTON_CENTER /* x */, BUTTON_CENTER /* y */, BUTTON_RADIUS /* radius */, highlight_start /* start */, highlight_start + (M_PI / 128.0) /* end */); cairo_stroke(ctx); cairo_arc(ctx, BUTTON_CENTER /* x */, BUTTON_CENTER /* y */, BUTTON_RADIUS /* radius */, (highlight_start + (M_PI / 3.0)) - (M_PI / 128.0) /* start */, highlight_start + (M_PI / 3.0) /* end */); cairo_stroke(ctx); } } if (show_clock && !unlock_indic_text) { char *text = NULL; char *date = NULL; char time_text[40] = {0}; char date_text[40] = {0}; strftime(time_text, 40, time_format, timeinfo); strftime(date_text, 40, date_format, timeinfo); text = time_text; date = date_text; if (text) { double x, y; cairo_text_extents_t extents; cairo_set_font_size(time_ctx, time_size); cairo_select_font_face(time_ctx, time_font, CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_NORMAL); cairo_set_source_rgba(time_ctx, (double)time16[0]/255, (double)time16[1]/255, (double)time16[2]/255, (double)time16[3]/255); cairo_text_extents(time_ctx, text, &extents); x = CLOCK_WIDTH/2 - ((extents.width / 2) + extents.x_bearing); y = CLOCK_HEIGHT/2; cairo_move_to(time_ctx, x, y); cairo_show_text(time_ctx, text); cairo_close_path(time_ctx); } if (date) { double x, y; cairo_text_extents_t extents; cairo_select_font_face(date_ctx, date_font, CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_NORMAL); cairo_set_source_rgba(date_ctx, (double)date16[0]/255, (double)date16[1]/255, (double)date16[2]/255, (double)date16[3]/255); cairo_set_font_size(date_ctx, date_size); cairo_text_extents(date_ctx, date, &extents); x = CLOCK_WIDTH/2 - ((extents.width / 2) + extents.x_bearing); y = CLOCK_HEIGHT/2; cairo_move_to(date_ctx, x, y); cairo_show_text(date_ctx, date); cairo_close_path(date_ctx); } } double ix, iy; double x, y; double screen_x, screen_y; double w, h; double tx = 0; double ty = 0; double clock_width = CLOCK_WIDTH; double clock_height = CLOCK_HEIGHT; double radius = BUTTON_RADIUS; int te_x_err; int te_y_err; // variable mapping for evaluating the clock position expression te_variable vars[] = { {"w", &w}, {"h", &h}, {"x", &screen_x}, {"y", &screen_y}, {"ix", &ix}, {"iy", &iy}, {"tx", &tx}, {"ty", &ty}, {"cw", &clock_width}, {"ch", &clock_height}, // pretty sure this is fine. {"r", &radius} }; te_expr *te_ind_x_expr = te_compile(ind_x_expr, vars, 11, &te_x_err); te_expr *te_ind_y_expr = te_compile(ind_y_expr, vars, 11, &te_y_err); te_expr *te_time_x_expr = te_compile(time_x_expr, vars, 11, &te_x_err); te_expr *te_time_y_expr = te_compile(time_y_expr, vars, 11, &te_y_err); te_expr *te_date_x_expr = te_compile(date_x_expr, vars, 11, &te_x_err); te_expr *te_date_y_expr = te_compile(date_y_expr, vars, 11, &te_y_err); if (xr_screens > 0) { /* Composite the unlock indicator in the middle of each screen. */ // excuse me, just gonna hack something in right here if (screen_number != -1 && screen_number < xr_screens) { w = xr_resolutions[screen_number].width; h = xr_resolutions[screen_number].height; screen_x = xr_resolutions[screen_number].x; screen_y = xr_resolutions[screen_number].y; if (te_ind_x_expr && te_ind_y_expr) { ix = 0; iy = 0; ix = te_eval(te_ind_x_expr); iy = te_eval(te_ind_y_expr); DEBUG("\tscreen x: %d screen y: %d screen w: %f screen h: %f ix: %f iy: %f\n", xr_resolutions[screen_number].x, xr_resolutions[screen_number].y, w, h, ix, iy); } else { ix = xr_resolutions[screen_number].x + (xr_resolutions[screen_number].width / 2); iy = xr_resolutions[screen_number].y + (xr_resolutions[screen_number].height / 2); } x = ix - (button_diameter_physical / 2); y = iy - (button_diameter_physical / 2); cairo_set_source_surface(xcb_ctx, output, x, y); cairo_rectangle(xcb_ctx, x, y, button_diameter_physical, button_diameter_physical); cairo_fill(xcb_ctx); if (te_time_x_expr && te_time_y_expr) { tx = 0; ty = 0; tx = te_eval(te_time_x_expr); ty = te_eval(te_time_y_expr); double time_x = tx; double time_y = ty; double date_x = te_eval(te_date_x_expr); double date_y = te_eval(te_date_y_expr); DEBUG("tx: %f ty: %f ix: %f, iy: %f\n", tx, ty, ix, iy); DEBUG("\ttime_x: %f time_y: %f date_x: %f date_y: %f screen_number: %d\n", time_x, time_y, date_x, date_y, screen_number); DEBUG("\tscreen x: %d screen y: %d screen w: %f screen h: %f\n", xr_resolutions[screen_number].x, xr_resolutions[screen_number].y, w, h); cairo_set_source_surface(xcb_ctx, time_output, time_x, time_y); cairo_rectangle(xcb_ctx, time_x, time_y, CLOCK_WIDTH, CLOCK_HEIGHT); cairo_fill(xcb_ctx); cairo_set_source_surface(xcb_ctx, date_output, date_x, date_y); cairo_rectangle(xcb_ctx, date_x, date_y, CLOCK_WIDTH, CLOCK_HEIGHT); cairo_fill(xcb_ctx); } } else { for (int screen = 0; screen < xr_screens; screen++) { w = xr_resolutions[screen].width; h = xr_resolutions[screen].height; screen_x = xr_resolutions[screen].x; screen_y = xr_resolutions[screen].y; if (te_ind_x_expr && te_ind_y_expr) { ix = 0; iy = 0; ix = te_eval(te_ind_x_expr); iy = te_eval(te_ind_y_expr); DEBUG("\tscreen x: %d screen y: %d screen w: %f screen h: %f ix: %f iy: %f\n", xr_resolutions[screen].x, xr_resolutions[screen].y, w, h, ix, iy); } else { ix = xr_resolutions[screen].x + (xr_resolutions[screen].width / 2); iy = xr_resolutions[screen].y + (xr_resolutions[screen].height / 2); } x = ix - (button_diameter_physical / 2); y = iy - (button_diameter_physical / 2); cairo_set_source_surface(xcb_ctx, output, x, y); cairo_rectangle(xcb_ctx, x, y, button_diameter_physical, button_diameter_physical); cairo_fill(xcb_ctx); if (te_time_x_expr && te_time_y_expr) { tx = 0; ty = 0; tx = te_eval(te_time_x_expr); ty = te_eval(te_time_y_expr); double time_x = tx; double time_y = ty; double date_x = te_eval(te_date_x_expr); double date_y = te_eval(te_date_y_expr); DEBUG("tx: %f ty: %f f ix: %f iy: %f\n", tx, ty, ix, iy); DEBUG("\ttime_x: %f time_y: %f date_x: %f date_y: %f screen_number: %d\n", time_x, time_y, date_x, date_y, screen); DEBUG("\tscreen x: %d screen y: %d screen w: %f screen h: %f\n", xr_resolutions[screen].x, xr_resolutions[screen].y, w, h); cairo_set_source_surface(xcb_ctx, time_output, time_x, time_y); cairo_rectangle(xcb_ctx, time_x, time_y, CLOCK_WIDTH, CLOCK_HEIGHT); cairo_fill(xcb_ctx); cairo_set_source_surface(xcb_ctx, date_output, date_x, date_y); cairo_rectangle(xcb_ctx, date_x, date_y, CLOCK_WIDTH, CLOCK_HEIGHT); cairo_fill(xcb_ctx); } else { DEBUG("error codes for exprs are %d, %d\n", te_x_err, te_y_err); DEBUG("exprs: %s, %s\n", time_x_expr, time_y_expr); } } } } else { /* We have no information about the screen sizes/positions, so we just * place the unlock indicator in the middle of the X root window and * hope for the best. */ w = last_resolution[0]; h = last_resolution[1]; ix = last_resolution[0] / 2; iy = last_resolution[1] / 2; x = ix - (button_diameter_physical / 2); y = iy - (button_diameter_physical / 2); cairo_set_source_surface(xcb_ctx, output, x, y); cairo_rectangle(xcb_ctx, x, y, button_diameter_physical, button_diameter_physical); cairo_fill(xcb_ctx); if (te_time_x_expr && te_time_y_expr) { tx = te_eval(te_time_x_expr); ty = te_eval(te_time_y_expr); double time_x = tx - CLOCK_WIDTH / 2; double time_y = tx - CLOCK_HEIGHT / 2; double date_x = te_eval(te_date_x_expr) - CLOCK_WIDTH / 2; double date_y = te_eval(te_date_y_expr) - CLOCK_HEIGHT / 2; DEBUG("Placing time at %f, %f\n", time_x, time_y); cairo_set_source_surface(xcb_ctx, time_output, time_x, time_y); cairo_rectangle(xcb_ctx, time_x, time_y, CLOCK_WIDTH, CLOCK_HEIGHT); cairo_fill(xcb_ctx); cairo_set_source_surface(xcb_ctx, date_output, date_x, date_y); cairo_rectangle(xcb_ctx, date_x, date_y, CLOCK_WIDTH, CLOCK_HEIGHT); cairo_fill(xcb_ctx); } } cairo_surface_destroy(xcb_output); cairo_surface_destroy(time_output); cairo_surface_destroy(date_output); cairo_surface_destroy(output); cairo_destroy(ctx); cairo_destroy(time_ctx); cairo_destroy(date_ctx); cairo_destroy(xcb_ctx); return bg_pixmap; } /* * Calls draw_image on a new pixmap and swaps that with the current pixmap * */ void redraw_screen(void) { DEBUG("redraw_screen(unlock_state = %d, auth_state = %d)\n", unlock_state, auth_state); xcb_pixmap_t bg_pixmap = draw_image(last_resolution); xcb_change_window_attributes(conn, win, XCB_CW_BACK_PIXMAP, (uint32_t[1]){bg_pixmap}); /* XXX: Possible optimization: Only update the area in the middle of the * screen instead of the whole screen. */ xcb_clear_area(conn, 0, win, 0, 0, last_resolution[0], last_resolution[1]); xcb_free_pixmap(conn, bg_pixmap); xcb_flush(conn); } /* * Hides the unlock indicator completely when there is no content in the * password buffer. * */ void clear_indicator(void) { if (input_position == 0) { unlock_state = STATE_STARTED; } else unlock_state = STATE_KEY_PRESSED; redraw_screen(); } static void time_redraw_cb(struct ev_loop *loop, ev_periodic *w, int revents) { redraw_screen(); } void start_time_redraw_tick(struct ev_loop* main_loop) { if (time_redraw_tick) { ev_periodic_set(time_redraw_tick, 0., refresh_rate, 0); ev_periodic_again(main_loop, time_redraw_tick); } else { if (!(time_redraw_tick = calloc(sizeof(struct ev_periodic), 1))) { return; } ev_periodic_init(time_redraw_tick, time_redraw_cb, 0., refresh_rate, 0); ev_periodic_start(main_loop, time_redraw_tick); } }