video_console.c source code [codebrowser/osfmk/console/video_console.c]

1	/*
2	* Copyright (c) 2000-2009 Apple Inc. All rights reserved.
3	*
4	* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5	*
6	* This file contains Original Code and/or Modifications of Original Code
7	* as defined in and that are subject to the Apple Public Source License
8	* Version 2.0 (the 'License'). You may not use this file except in
9	* compliance with the License. The rights granted to you under the License
10	* may not be used to create, or enable the creation or redistribution of,
11	* unlawful or unlicensed copies of an Apple operating system, or to
12	* circumvent, violate, or enable the circumvention or violation of, any
13	* terms of an Apple operating system software license agreement.
14	*
15	* Please obtain a copy of the License at
16	* http://www.opensource.apple.com/apsl/ and read it before using this file.
17	*
18	* The Original Code and all software distributed under the License are
19	* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22	* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23	* Please see the License for the specific language governing rights and
24	* limitations under the License.
25	*
26	* @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27	*/
28	/*
29	* @OSF_FREE_COPYRIGHT@
30	*
31	*/
32	/*
33	* @APPLE_FREE_COPYRIGHT@
34	*/
35	/*
36	* NetBSD: ite.c,v 1.16 1995/07/17 01:24:34 briggs Exp
37	*
38	* Copyright (c) 1988 University of Utah.
39	* Copyright (c) 1990, 1993
40	* The Regents of the University of California. All rights reserved.
41	*
42	* This code is derived from software contributed to Berkeley by
43	* the Systems Programming Group of the University of Utah Computer
44	* Science Department.
45	*
46	* Redistribution and use in source and binary forms, with or without
47	* modification, are permitted provided that the following conditions
48	* are met:
49	* 1. Redistributions of source code must retain the above copyright
50	* notice, this list of conditions and the following disclaimer.
51	* 2. Redistributions in binary form must reproduce the above copyright
52	* notice, this list of conditions and the following disclaimer in the
53	* documentation and/or other materials provided with the distribution.
54	* 3. All advertising materials mentioning features or use of this software
55	* must display the following acknowledgement:
56	* This product includes software developed by the University of
57	* California, Berkeley and its contributors.
58	* 4. Neither the name of the University nor the names of its contributors
59	* may be used to endorse or promote products derived from this software
60	* without specific prior written permission.
61	*
62	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
63	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
64	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
65	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
66	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
67	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
68	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
69	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
70	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
71	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
72	* SUCH DAMAGE.
73	*
74	* from: Utah $Hdr: ite.c 1.28 92/12/20$
75	*
76	* @(#)ite.c 8.2 (Berkeley) 1/12/94
77	*/
78
79	/*
80	* ite.c
81	*
82	* The ite module handles the system console; that is, stuff printed
83	* by the kernel and by user programs while "desktop" and X aren't
84	* running. Some (very small) parts are based on hp300's 4.4 ite.c,
85	* hence the above copyright.
86	*
87	* -- Brad and Lawrence, June 26th, 1994
88	*
89	*/
90
91	#include <console/video_console.h>
92	#include <console/serial_protos.h>
93
94	#include <kern/kern_types.h>
95	#include <kern/kalloc.h>
96	#include <kern/debug.h>
97	#include <kern/spl.h>
98	#include <kern/thread_call.h>
99
100	#include <vm/pmap.h>
101	#include <vm/vm_kern.h>
102	#include <machine/io_map_entries.h>
103	#include <machine/machine_cpu.h>
104
105	#include <pexpert/pexpert.h>
106	#include <sys/kdebug.h>
107
108	#include "iso_font.c"
109	#if !CONFIG_EMBEDDED
110	#include "progress_meter_data.c"
111	#endif
112
113	#include "sys/msgbuf.h"
114
115	/*
116	* Generic Console (Front-End)
117	* ---------------------------
118	*/
119
120	struct vc_info vinfo;
121
122	void noroot_icon_test(void);
123
124
125	extern int disableConsoleOutput;
126	static boolean_t gc_enabled = FALSE;
127	static boolean_t gc_initialized = FALSE;
128	static boolean_t vm_initialized = FALSE;
129
130	static struct {
131	void (initialize)(struct* vc_info * info);
132	void (*enable)(boolean_t enable);
133	void (paint_char)(unsigned* int xx, unsigned int yy, unsigned char ch,
134	int attrs, unsigned char ch_previous,
135	int attrs_previous);
136	void (clear_screen)(unsigned* int xx, unsigned int yy, unsigned int top,
137	unsigned int bottom, int which);
138	void (scroll_down)(int* num, unsigned int top, unsigned int bottom);
139	void (scroll_up)(int* num, unsigned int top, unsigned int bottom);
140	void (hide_cursor)(unsigned* int xx, unsigned int yy);
141	void (show_cursor)(unsigned* int xx, unsigned int yy);
142	void (update_color)(int* color, boolean_t fore);
143	} gc_ops;
144
145	static unsigned char *gc_buffer_attributes;
146	static unsigned char *gc_buffer_characters;
147	static unsigned char *gc_buffer_colorcodes;
148	static unsigned char *gc_buffer_tab_stops;
149	static uint32_t gc_buffer_columns;
150	static uint32_t gc_buffer_rows;
151	static uint32_t gc_buffer_size;
152
153	#if defined(__i386__) \|\| defined(__x86_64__)
154	decl_simple_lock_data(static, vcputc_lock);
155
156	#define VCPUTC_LOCK_INIT() \
157	MACRO_BEGIN \
158	simple_lock_init(&vcputc_lock, 0); \
159	MACRO_END
160
161	#define VCPUTC_LOCK_LOCK() \
162	MACRO_BEGIN \
163	boolean_t istate = ml_get_interrupts_enabled(); \
164	while (!simple_lock_try(&vcputc_lock)) \
165	{ \
166	if (!istate) \
167	handle_pending_TLB_flushes(); \
168	cpu_pause(); \
169	} \
170	MACRO_END
171
172	#define VCPUTC_LOCK_UNLOCK() \
173	MACRO_BEGIN \
174	simple_unlock(&vcputc_lock); \
175	MACRO_END
176	#else
177	static hw_lock_data_t vcputc_lock;
178
179	#define VCPUTC_LOCK_INIT() \
180	MACRO_BEGIN \
181	hw_lock_init(&vcputc_lock); \
182	MACRO_END
183
184	#define VCPUTC_LOCK_LOCK() \
185	MACRO_BEGIN \
186	if (!hw_lock_to(&vcputc_lock, ~0U))\
187	{ \
188	panic("VCPUTC_LOCK_LOCK"); \
189	} \
190	MACRO_END
191
192	#define VCPUTC_LOCK_UNLOCK() \
193	MACRO_BEGIN \
194	hw_lock_unlock(&vcputc_lock); \
195	MACRO_END
196	#endif
197
198	/*
199	# Attribute codes:
200	# 00=none 01=bold 04=underscore 05=blink 07=reverse 08=concealed
201	# Text color codes:
202	# 30=black 31=red 32=green 33=yellow 34=blue 35=magenta 36=cyan 37=white
203	# Background color codes:
204	# 40=black 41=red 42=green 43=yellow 44=blue 45=magenta 46=cyan 47=white
205	*/
206
207	#define ATTR_NONE 0
208	#define ATTR_BOLD 1
209	#define ATTR_UNDER 2
210	#define ATTR_REVERSE 4
211
212	#define COLOR_BACKGROUND 0
213	#define COLOR_FOREGROUND 7
214
215	#define COLOR_CODE_GET(code, fore) (((code) & ((fore) ? 0xF0 : 0x0F)) >> ((fore) ? 4 : 0))
216	#define COLOR_CODE_SET(code, color, fore) (((code) & ((fore) ? 0x0F : 0xF0)) \| ((color) << ((fore) ? 4 : 0)))
217
218	static unsigned char gc_color_code;
219
220	/ VT100 state: /
221	#define MAXPARS 16
222	static unsigned int gc_x, gc_y, gc_savex, gc_savey;
223	static unsigned int gc_par[MAXPARS], gc_numpars, gc_hanging_cursor, gc_attr, gc_saveattr;
224
225	/ VT100 scroll region /
226	static unsigned int gc_scrreg_top, gc_scrreg_bottom;
227
228	enum vt100state_e {
229	ESnormal, / Nothing yet /
230	ESesc, / Got ESC /
231	ESsquare, / Got ESC [ /
232	ESgetpars, / About to get or getting the parameters /
233	ESgotpars, / Finished getting the parameters /
234	ESfunckey, / Function key /
235	EShash, / DEC-specific stuff (screen align, etc.) /
236	ESsetG0, / Specify the G0 character set /
237	ESsetG1, / Specify the G1 character set /
238	ESask,
239	EScharsize,
240	ESignore / Ignore this sequence /
241	} gc_vt100state = ESnormal;
242
243
244	enum
245	{
246	/ secs /
247	kProgressAcquireDelay = `0`,
248	#if CONFIG_EMBEDDED
249	kProgressReacquireDelay = `5`,
250	#else
251	kProgressReacquireDelay = `5`,
252	#endif
253	};
254
255	static int8_t vc_rotate_matr[`4`][`2`][`2`] = {
256	{ { `1`, `0` },
257	{ `0`, `1` } },
258	{ { `0`, `1` },
259	{ -`1`, `0` } },
260	{ { -`1`, `0` },
261	{ `0`, -`1` } },
262	{ { `0`, -`1` },
263	{ `1`, `0` } }
264	};
265
266	static int gc_wrap_mode = `1`, gc_relative_origin = `0`;
267	static int gc_charset_select = `0`, gc_save_charset_s = `0`;
268	static int gc_charset[`2`] = { `0`, `0` };
269	static int gc_charset_save[`2`] = { `0`, `0` };
270
271	static void gc_clear_line(unsigned int xx, unsigned int yy, int which);
272	static void gc_clear_screen(unsigned int xx, unsigned int yy, int top,
273	unsigned int bottom, int which);
274	static void gc_enable(boolean_t enable);
275	static void gc_hide_cursor(unsigned int xx, unsigned int yy);
276	static void gc_initialize(struct vc_info * info);
277	static boolean_t gc_is_tab_stop(unsigned int column);
278	static void gc_paint_char(unsigned int xx, unsigned int yy, unsigned char ch,
279	int attrs);
280	static void gc_putchar(char ch);
281	static void gc_putc_askcmd(unsigned char ch);
282	static void gc_putc_charsetcmd(int charset, unsigned char ch);
283	static void gc_putc_charsizecmd(unsigned char ch);
284	static void gc_putc_esc(unsigned char ch);
285	static void gc_putc_getpars(unsigned char ch);
286	static void gc_putc_gotpars(unsigned char ch);
287	static void gc_putc_normal(unsigned char ch);
288	static void gc_putc_square(unsigned char ch);
289	static void gc_reset_screen(void);
290	static void gc_reset_tabs(void);
291	static void gc_reset_vt100(void);
292	static void gc_scroll_down(int num, unsigned int top, unsigned int bottom);
293	static void gc_scroll_up(int num, unsigned int top, unsigned int bottom);
294	static void gc_set_tab_stop(unsigned int column, boolean_t enabled);
295	static void gc_show_cursor(unsigned int xx, unsigned int yy);
296	static void gc_update_color(int color, boolean_t fore);
297
298	static void
299	gc_clear_line(unsigned int xx, unsigned int yy, int which)
300	{
301	unsigned int start, end, i;
302
303	/*
304	* This routine runs extremely slowly. I don't think it's
305	* used all that often, except for To end of line. I'll go
306	* back and speed this up when I speed up the whole vc
307	* module. --LK
308	*/
309
310	switch (which) {
311	case `0`: / To end of line /
312	start = xx;
313	end = vinfo.v_columns-`1`;
314	break;
315	case `1`: / To start of line /
316	start = `0`;
317	end = xx;
318	break;
319	case `2`: / Whole line /
320	start = `0`;
321	end = vinfo.v_columns-`1`;
322	break;
323	default:
324	return;
325	}
326
327	for (i = start; i <= end; i++) {
328	gc_paint_char(i, yy, `' '`, ATTR_NONE);
329	}
330	}
331
332	static void
333	gc_clear_screen(unsigned int xx, unsigned int yy, int top, unsigned int bottom,
334	int which)
335	{
336	if (!gc_buffer_size) return;
337
338	if ( xx < gc_buffer_columns && yy < gc_buffer_rows && bottom <= gc_buffer_rows )
339	{
340	uint32_t start, end;
341
342	switch (which) {
343	case `0`: / To end of screen /
344	start = (yy * gc_buffer_columns) + xx;
345	end = (bottom * gc_buffer_columns) - `1`;
346	break;
347	case `1`: / To start of screen /
348	start = (top * gc_buffer_columns);
349	end = (yy * gc_buffer_columns) + xx;
350	break;
351	case `2`: / Whole screen /
352	start = (top * gc_buffer_columns);
353	end = (bottom * gc_buffer_columns) - `1`;
354	break;
355	default:
356	start = `0`;
357	end = `0`;
358	break;
359	}
360
361	memset(gc_buffer_attributes + start, ATTR_NONE, end - start + `1`);
362	memset(gc_buffer_characters + start, `' '`, end - start + `1`);
363	memset(gc_buffer_colorcodes + start, gc_color_code, end - start + `1`);
364	}
365
366	gc_ops.clear_screen(xx, yy, top, bottom, which);
367	}
368
369	static void
370	gc_enable( boolean_t enable )
371	{
372	unsigned char *buffer_attributes = NULL;
373	unsigned char *buffer_characters = NULL;
374	unsigned char *buffer_colorcodes = NULL;
375	unsigned char *buffer_tab_stops = NULL;
376	uint32_t buffer_columns = `0`;
377	uint32_t buffer_rows = `0`;
378	uint32_t buffer_size = `0`;
379	spl_t s;
380
381	if ( enable == FALSE )
382	{
383	// only disable console output if it goes to the graphics console
384	if ( console_is_serial() == FALSE )
385	disableConsoleOutput = TRUE;
386	gc_enabled = FALSE;
387	gc_ops.enable(FALSE);
388	}
389
390	s = splhigh( );
391	VCPUTC_LOCK_LOCK( );
392
393	if ( gc_buffer_size )
394	{
395	buffer_attributes = gc_buffer_attributes;
396	buffer_characters = gc_buffer_characters;
397	buffer_colorcodes = gc_buffer_colorcodes;
398	buffer_tab_stops = gc_buffer_tab_stops;
399	buffer_columns = gc_buffer_columns;
400	buffer_rows = gc_buffer_rows;
401	buffer_size = gc_buffer_size;
402
403	gc_buffer_attributes = NULL;
404	gc_buffer_characters = NULL;
405	gc_buffer_colorcodes = NULL;
406	gc_buffer_tab_stops = NULL;
407	gc_buffer_columns = `0`;
408	gc_buffer_rows = `0`;
409	gc_buffer_size = `0`;
410
411	VCPUTC_LOCK_UNLOCK( );
412	splx( s );
413
414	kfree( buffer_attributes, buffer_size );
415	kfree( buffer_characters, buffer_size );
416	kfree( buffer_colorcodes, buffer_size );
417	kfree( buffer_tab_stops, buffer_columns );
418	}
419	else
420	{
421	VCPUTC_LOCK_UNLOCK( );
422	splx( s );
423	}
424
425	if ( enable )
426	{
427	if ( vm_initialized )
428	{
429	buffer_columns = vinfo.v_columns;
430	buffer_rows = vinfo.v_rows;
431	buffer_size = buffer_columns * buffer_rows;
432
433	if ( buffer_size )
434	{
435	buffer_attributes = (unsigned char *) kalloc( buffer_size );
436	buffer_characters = (unsigned char *) kalloc( buffer_size );
437	buffer_colorcodes = (unsigned char *) kalloc( buffer_size );
438	buffer_tab_stops = (unsigned char *) kalloc( buffer_columns );
439
440	if ( buffer_attributes == NULL \|\|
441	buffer_characters == NULL \|\|
442	buffer_colorcodes == NULL \|\|
443	buffer_tab_stops == NULL )
444	{
445	if ( buffer_attributes ) kfree( buffer_attributes, buffer_size );
446	if ( buffer_characters ) kfree( buffer_characters, buffer_size );
447	if ( buffer_colorcodes ) kfree( buffer_colorcodes, buffer_size );
448	if ( buffer_tab_stops ) kfree( buffer_tab_stops, buffer_columns );
449
450	buffer_attributes = NULL;
451	buffer_characters = NULL;
452	buffer_colorcodes = NULL;
453	buffer_tab_stops = NULL;
454	buffer_columns = `0`;
455	buffer_rows = `0`;
456	buffer_size = `0`;
457	}
458	else
459	{
460	memset( buffer_attributes, ATTR_NONE, buffer_size );
461	memset( buffer_characters, `' '`, buffer_size );
462	memset( buffer_colorcodes, COLOR_CODE_SET( `0`, COLOR_FOREGROUND, TRUE ), buffer_size );
463	memset( buffer_tab_stops, `0`, buffer_columns );
464	}
465	}
466	}
467
468	s = splhigh( );
469	VCPUTC_LOCK_LOCK( );
470
471	gc_buffer_attributes = buffer_attributes;
472	gc_buffer_characters = buffer_characters;
473	gc_buffer_colorcodes = buffer_colorcodes;
474	gc_buffer_tab_stops = buffer_tab_stops;
475	gc_buffer_columns = buffer_columns;
476	gc_buffer_rows = buffer_rows;
477	gc_buffer_size = buffer_size;
478
479	gc_reset_screen();
480
481	VCPUTC_LOCK_UNLOCK( );
482	splx( s );
483
484	gc_ops.clear_screen(gc_x, gc_y, `0`, vinfo.v_rows, `2`);
485	gc_ops.show_cursor(gc_x, gc_y);
486
487	gc_ops.enable(TRUE);
488	gc_enabled = TRUE;
489	disableConsoleOutput = FALSE;
490	}
491	}
492
493	static void
494	gc_hide_cursor(unsigned int xx, unsigned int yy)
495	{
496	if ( xx < gc_buffer_columns && yy < gc_buffer_rows )
497	{
498	uint32_t index = (yy * gc_buffer_columns) + xx;
499	unsigned char attribute = gc_buffer_attributes[index];
500	unsigned char character = gc_buffer_characters[index];
501	unsigned char colorcode = gc_buffer_colorcodes[index];
502	unsigned char colorcodesave = gc_color_code;
503
504	gc_update_color(COLOR_CODE_GET(colorcode, TRUE ), TRUE );
505	gc_update_color(COLOR_CODE_GET(colorcode, FALSE), FALSE);
506
507	gc_ops.paint_char(xx, yy, character, attribute, `0`, `0`);
508
509	gc_update_color(COLOR_CODE_GET(colorcodesave, TRUE ), TRUE );
510	gc_update_color(COLOR_CODE_GET(colorcodesave, FALSE), FALSE);
511	}
512	else
513	{
514	gc_ops.hide_cursor(xx, yy);
515	}
516	}
517
518	static void
519	gc_initialize(struct vc_info * info)
520	{
521	if ( gc_initialized == FALSE )
522	{
523	/ Init our lock /
524	VCPUTC_LOCK_INIT();
525
526	gc_initialized = TRUE;
527	}
528
529	gc_ops.initialize(info);
530
531	gc_reset_vt100();
532	gc_x = gc_y = `0`;
533	}
534
535	static void
536	gc_paint_char(unsigned int xx, unsigned int yy, unsigned char ch, int attrs)
537	{
538	if ( xx < gc_buffer_columns && yy < gc_buffer_rows )
539	{
540	uint32_t index = (yy * gc_buffer_columns) + xx;
541
542	gc_buffer_attributes[index] = attrs;
543	gc_buffer_characters[index] = ch;
544	gc_buffer_colorcodes[index] = gc_color_code;
545	}
546
547	gc_ops.paint_char(xx, yy, ch, attrs, `0`, `0`);
548	}
549
550	static void
551	gc_putchar(char ch)
552	{
553	if (!ch) {
554	return; / ignore null characters /
555	}
556	switch (gc_vt100state) {
557	default:gc_vt100state = ESnormal; / FALLTHROUGH /
558	case ESnormal:
559	gc_putc_normal(ch);
560	break;
561	case ESesc:
562	gc_putc_esc(ch);
563	break;
564	case ESsquare:
565	gc_putc_square(ch);
566	break;
567	case ESgetpars:
568	gc_putc_getpars(ch);
569	break;
570	case ESgotpars:
571	gc_putc_gotpars(ch);
572	break;
573	case ESask:
574	gc_putc_askcmd(ch);
575	break;
576	case EScharsize:
577	gc_putc_charsizecmd(ch);
578	break;
579	case ESsetG0:
580	gc_putc_charsetcmd(`0`, ch);
581	break;
582	case ESsetG1:
583	gc_putc_charsetcmd(`1`, ch);
584	break;
585	}
586
587	if (gc_x >= vinfo.v_columns) {
588	if (`0` == vinfo.v_columns)
589	gc_x = `0`;
590	else
591	gc_x = vinfo.v_columns - `1`;
592	}
593	if (gc_y >= vinfo.v_rows) {
594	if (`0` == vinfo.v_rows)
595	gc_y = `0`;
596	else
597	gc_y = vinfo.v_rows - `1`;
598	}
599	}
600
601	static void
602	gc_putc_askcmd(unsigned char ch)
603	{
604	if (ch >= `'0'` && ch <= `'9'`) {
605	gc_par[gc_numpars] = (`10`*gc_par[gc_numpars]) + (ch-`'0'`);
606	return;
607	}
608	gc_vt100state = ESnormal;
609
610	switch (gc_par[`0`]) {
611	case `6`:
612	gc_relative_origin = ch == `'h'`;
613	break;
614	case `7`: / wrap around mode h=1, l=0/
615	gc_wrap_mode = ch == `'h'`;
616	break;
617	default:
618	break;
619	}
620
621	}
622
623	static void
624	gc_putc_charsetcmd(int charset, unsigned char ch)
625	{
626	gc_vt100state = ESnormal;
627
628	switch (ch) {
629	case `'A'` :
630	case `'B'` :
631	default:
632	gc_charset[charset] = `0`;
633	break;
634	case `'0'` : / Graphic characters /
635	case `'2'` :
636	gc_charset[charset] = `0x21`;
637	break;
638	}
639
640	}
641
642	static void
643	gc_putc_charsizecmd(unsigned char ch)
644	{
645	gc_vt100state = ESnormal;
646
647	switch (ch) {
648	case `'3'` :
649	case `'4'` :
650	case `'5'` :
651	case `'6'` :
652	break;
653	case `'8'` : / fill 'E's /
654	{
655	unsigned int xx, yy;
656	for (yy = `0`; yy < vinfo.v_rows; yy++)
657	for (xx = `0`; xx < vinfo.v_columns; xx++)
658	gc_paint_char(xx, yy, `'E'`, ATTR_NONE);
659	}
660	break;
661	}
662
663	}
664
665	static void
666	gc_putc_esc(unsigned char ch)
667	{
668	gc_vt100state = ESnormal;
669
670	switch (ch) {
671	case `'['`:
672	gc_vt100state = ESsquare;
673	break;
674	case `'c'`: / Reset terminal /
675	gc_reset_vt100();
676	gc_clear_screen(gc_x, gc_y, `0`, vinfo.v_rows, `2`);
677	gc_x = gc_y = `0`;
678	break;
679	case `'D'`: / Line feed /
680	case `'E'`:
681	if (gc_y >= gc_scrreg_bottom -`1`) {
682	gc_scroll_up(`1`, gc_scrreg_top, gc_scrreg_bottom);
683	gc_y = gc_scrreg_bottom - `1`;
684	} else {
685	gc_y++;
686	}
687	if (ch == `'E'`) gc_x = `0`;
688	break;
689	case `'H'`: / Set tab stop /
690	gc_set_tab_stop(gc_x, TRUE);
691	break;
692	case `'M'`: / Cursor up /
693	if (gc_y <= gc_scrreg_top) {
694	gc_scroll_down(`1`, gc_scrreg_top, gc_scrreg_bottom);
695	gc_y = gc_scrreg_top;
696	} else {
697	gc_y--;
698	}
699	break;
700	case `'>'`:
701	gc_reset_vt100();
702	break;
703	case `'7'`: / Save cursor /
704	gc_savex = gc_x;
705	gc_savey = gc_y;
706	gc_saveattr = gc_attr;
707	gc_save_charset_s = gc_charset_select;
708	gc_charset_save[`0`] = gc_charset[`0`];
709	gc_charset_save[`1`] = gc_charset[`1`];
710	break;
711	case `'8'`: / Restore cursor /
712	gc_x = gc_savex;
713	gc_y = gc_savey;
714	gc_attr = gc_saveattr;
715	gc_charset_select = gc_save_charset_s;
716	gc_charset[`0`] = gc_charset_save[`0`];
717	gc_charset[`1`] = gc_charset_save[`1`];
718	break;
719	case `'Z'`: / return terminal ID /
720	break;
721	case `'#'`: / change characters height /
722	gc_vt100state = EScharsize;
723	break;
724	case `'('`:
725	gc_vt100state = ESsetG0;
726	break;
727	case `')'`: / character set sequence /
728	gc_vt100state = ESsetG1;
729	break;
730	case `'='`:
731	break;
732	default:
733	/ Rest not supported /
734	break;
735	}
736
737	}
738
739	static void
740	gc_putc_getpars(unsigned char ch)
741	{
742	if (ch == `'?'`) {
743	gc_vt100state = ESask;
744	return;
745	}
746	if (ch == `'['`) {
747	gc_vt100state = ESnormal;
748	/ Not supported /
749	return;
750	}
751	if (ch == `';'` && gc_numpars < MAXPARS - `1`) {
752	gc_numpars++;
753	} else
754	if (ch >= `'0'` && ch <= `'9'`) {
755	gc_par[gc_numpars] *= `10`;
756	gc_par[gc_numpars] += ch - `'0'`;
757	} else {
758	gc_numpars++;
759	gc_vt100state = ESgotpars;
760	gc_putc_gotpars(ch);
761	}
762	}
763
764	static void
765	gc_putc_gotpars(unsigned char ch)
766	{
767	unsigned int i;
768
769	if (ch < `' '`) {
770	/ special case for vttest for handling cursor*
771	movement in escape sequences /*
772	gc_putc_normal(ch);
773	gc_vt100state = ESgotpars;
774	return;
775	}
776	gc_vt100state = ESnormal;
777	switch (ch) {
778	case `'A'`: / Up /
779	gc_y -= gc_par[`0`] ? gc_par[`0`] : `1`;
780	if (gc_y < gc_scrreg_top)
781	gc_y = gc_scrreg_top;
782	break;
783	case `'B'`: / Down /
784	gc_y += gc_par[`0`] ? gc_par[`0`] : `1`;
785	if (gc_y >= gc_scrreg_bottom)
786	gc_y = gc_scrreg_bottom - `1`;
787	break;
788	case `'C'`: / Right /
789	gc_x += gc_par[`0`] ? gc_par[`0`] : `1`;
790	if (gc_x >= vinfo.v_columns)
791	gc_x = vinfo.v_columns-`1`;
792	break;
793	case `'D'`: / Left /
794	if (gc_par[`0`] > gc_x)
795	gc_x = `0`;
796	else if (gc_par[`0`])
797	gc_x -= gc_par[`0`];
798	else if (gc_x)
799	--gc_x;
800	break;
801	case `'H'`: / Set cursor position /
802	case `'f'`:
803	gc_x = gc_par[`1`] ? gc_par[`1`] - `1` : `0`;
804	gc_y = gc_par[`0`] ? gc_par[`0`] - `1` : `0`;
805	if (gc_relative_origin)
806	gc_y += gc_scrreg_top;
807	gc_hanging_cursor = `0`;
808	break;
809	case `'X'`: / clear p1 characters /
810	if (gc_numpars) {
811	for (i = gc_x; i < gc_x + gc_par[`0`]; i++)
812	gc_paint_char(i, gc_y, `' '`, ATTR_NONE);
813	}
814	break;
815	case `'J'`: / Clear part of screen /
816	gc_clear_screen(gc_x, gc_y, `0`, vinfo.v_rows, gc_par[`0`]);
817	break;
818	case `'K'`: / Clear part of line /
819	gc_clear_line(gc_x, gc_y, gc_par[`0`]);
820	break;
821	case `'g'`: / tab stops /
822	switch (gc_par[`0`]) {
823	case `1`:
824	case `2`: / reset tab stops /
825	/ gc_reset_tabs(); /
826	break;
827	case `3`: / Clear every tabs /
828	{
829	for (i = `0`; i <= vinfo.v_columns; i++)
830	gc_set_tab_stop(i, FALSE);
831	}
832	break;
833	case `0`:
834	gc_set_tab_stop(gc_x, FALSE);
835	break;
836	}
837	break;
838	case `'m'`: / Set attribute /
839	for (i = `0`; i < gc_numpars; i++) {
840	switch (gc_par[i]) {
841	case `0`:
842	gc_attr = ATTR_NONE;
843	gc_update_color(COLOR_BACKGROUND, FALSE);
844	gc_update_color(COLOR_FOREGROUND, TRUE );
845	break;
846	case `1`:
847	gc_attr \|= ATTR_BOLD;
848	break;
849	case `4`:
850	gc_attr \|= ATTR_UNDER;
851	break;
852	case `7`:
853	gc_attr \|= ATTR_REVERSE;
854	break;
855	case `22`:
856	gc_attr &= ~ATTR_BOLD;
857	break;
858	case `24`:
859	gc_attr &= ~ATTR_UNDER;
860	break;
861	case `27`:
862	gc_attr &= ~ATTR_REVERSE;
863	break;
864	case `5`:
865	case `25`: / blink/no blink /
866	break;
867	default:
868	if (gc_par[i] >= `30` && gc_par[i] <= `37`)
869	gc_update_color(gc_par[i] - `30`, TRUE);
870	if (gc_par[i] >= `40` && gc_par[i] <= `47`)
871	gc_update_color(gc_par[i] - `40`, FALSE);
872	break;
873	}
874	}
875	break;
876	case `'r'`: / Set scroll region /
877	gc_x = gc_y = `0`;
878	/ ensure top < bottom, and both within limits /
879	if ((gc_numpars > `0`) && (gc_par[`0`] < vinfo.v_rows)) {
880	gc_scrreg_top = gc_par[`0`] ? gc_par[`0`] - `1` : `0`;
881	} else {
882	gc_scrreg_top = `0`;
883	}
884	if ((gc_numpars > `1`) && (gc_par[`1`] <= vinfo.v_rows) && (gc_par[`1`] > gc_par[`0`])) {
885	gc_scrreg_bottom = gc_par[`1`];
886	if (gc_scrreg_bottom > vinfo.v_rows)
887	gc_scrreg_bottom = vinfo.v_rows;
888	} else {
889	gc_scrreg_bottom = vinfo.v_rows;
890	}
891	if (gc_relative_origin)
892	gc_y = gc_scrreg_top;
893	break;
894	}
895
896	}
897
898	static void
899	gc_putc_normal(unsigned char ch)
900	{
901	switch (ch) {
902	case `'\a'`: / Beep /
903	break;
904	case `127`: / Delete /
905	case `'\b'`: / Backspace /
906	if (gc_hanging_cursor) {
907	gc_hanging_cursor = `0`;
908	} else
909	if (gc_x > `0`) {
910	gc_x--;
911	}
912	break;
913	case `'\t'`: / Tab /
914	if (gc_buffer_tab_stops) while (gc_x < vinfo.v_columns && !gc_is_tab_stop(++gc_x));
915
916	if (gc_x >= vinfo.v_columns)
917	gc_x = vinfo.v_columns-`1`;
918	break;
919	case `0x0b`:
920	case `0x0c`:
921	case `'\n'`: / Line feed /
922	if (gc_y >= gc_scrreg_bottom -`1` ) {
923	gc_scroll_up(`1`, gc_scrreg_top, gc_scrreg_bottom);
924	gc_y = gc_scrreg_bottom - `1`;
925	} else {
926	gc_y++;
927	}
928	break;
929	case `'\r'`: / Carriage return /
930	gc_x = `0`;
931	gc_hanging_cursor = `0`;
932	break;
933	case `0x0e`: / Select G1 charset (Control-N) /
934	gc_charset_select = `1`;
935	break;
936	case `0x0f`: / Select G0 charset (Control-O) /
937	gc_charset_select = `0`;
938	break;
939	case `0x18` : / CAN : cancel /
940	case `0x1A` : / like cancel /
941	/ well, i do nothing here, may be later /
942	break;
943	case `'\033'`: / Escape /
944	gc_vt100state = ESesc;
945	gc_hanging_cursor = `0`;
946	break;
947	default:
948	if (ch >= `' '`) {
949	if (gc_hanging_cursor) {
950	gc_x = `0`;
951	if (gc_y >= gc_scrreg_bottom -`1` ) {
952	gc_scroll_up(`1`, gc_scrreg_top, gc_scrreg_bottom);
953	gc_y = gc_scrreg_bottom - `1`;
954	} else {
955	gc_y++;
956	}
957	gc_hanging_cursor = `0`;
958	}
959	gc_paint_char(gc_x, gc_y, (ch >= `0x60` && ch <= `0x7f`) ? ch + gc_charset[gc_charset_select]
960	: ch, gc_attr);
961	if (gc_x == vinfo.v_columns - `1`) {
962	gc_hanging_cursor = gc_wrap_mode;
963	} else {
964	gc_x++;
965	}
966	}
967	break;
968	}
969
970	}
971
972	static void
973	gc_putc_square(unsigned char ch)
974	{
975	int i;
976
977	for (i = `0`; i < MAXPARS; i++) {
978	gc_par[i] = `0`;
979	}
980
981	gc_numpars = `0`;
982	gc_vt100state = ESgetpars;
983
984	gc_putc_getpars(ch);
985
986	}
987
988	static void
989	gc_reset_screen(void)
990	{
991	gc_reset_vt100();
992	gc_x = gc_y = `0`;
993	}
994
995	static void
996	gc_reset_tabs(void)
997	{
998	unsigned int i;
999
1000	if (!gc_buffer_tab_stops) return;
1001
1002	for (i = `0`; i < vinfo.v_columns; i++) {
1003	gc_buffer_tab_stops[i] = ((i % `8`) == `0`);
1004	}
1005
1006	}
1007
1008	static void
1009	gc_set_tab_stop(unsigned int column, boolean_t enabled)
1010	{
1011	if (gc_buffer_tab_stops && (column < vinfo.v_columns)) {
1012	gc_buffer_tab_stops[column] = enabled;
1013	}
1014	}
1015
1016	static boolean_t gc_is_tab_stop(unsigned int column)
1017	{
1018	if (gc_buffer_tab_stops == NULL)
1019	return ((column % `8`) == `0`);
1020	if (column < vinfo.v_columns)
1021	return gc_buffer_tab_stops[column];
1022	else
1023	return FALSE;
1024	}
1025
1026	static void
1027	gc_reset_vt100(void)
1028	{
1029	gc_reset_tabs();
1030	gc_scrreg_top = `0`;
1031	gc_scrreg_bottom = vinfo.v_rows;
1032	gc_attr = ATTR_NONE;
1033	gc_charset[`0`] = gc_charset[`1`] = `0`;
1034	gc_charset_select = `0`;
1035	gc_wrap_mode = `1`;
1036	gc_relative_origin = `0`;
1037	gc_update_color(COLOR_BACKGROUND, FALSE);
1038	gc_update_color(COLOR_FOREGROUND, TRUE);
1039	}
1040
1041	static void
1042	gc_scroll_down(int num, unsigned int top, unsigned int bottom)
1043	{
1044	if (!gc_buffer_size) return;
1045
1046	if ( bottom <= gc_buffer_rows )
1047	{
1048	unsigned char colorcodesave = gc_color_code;
1049	uint32_t column, row;
1050	uint32_t index, jump;
1051
1052	jump = num * gc_buffer_columns;
1053
1054	for ( row = bottom - `1` ; row >= top + num ; row-- )
1055	{
1056	index = row * gc_buffer_columns;
1057
1058	for ( column = `0` ; column < gc_buffer_columns ; index++, column++ )
1059	{
1060	if ( gc_buffer_attributes[index] != gc_buffer_attributes[index - jump] \|\|
1061	gc_buffer_characters[index] != gc_buffer_characters[index - jump] \|\|
1062	gc_buffer_colorcodes[index] != gc_buffer_colorcodes[index - jump] )
1063	{
1064	if ( gc_color_code != gc_buffer_colorcodes[index - jump] )
1065	{
1066	gc_update_color(COLOR_CODE_GET(gc_buffer_colorcodes[index - jump], TRUE ), TRUE );
1067	gc_update_color(COLOR_CODE_GET(gc_buffer_colorcodes[index - jump], FALSE), FALSE);
1068	}
1069
1070	if ( gc_buffer_colorcodes[index] != gc_buffer_colorcodes[index - jump] )
1071	{
1072	gc_ops.paint_char( / xx / column,
1073	/ yy / row,
1074	/ ch / gc_buffer_characters[index - jump],
1075	/ attrs / gc_buffer_attributes[index - jump],
1076	/ ch_previous / `0`,
1077	/ attrs_previous / `0` );
1078	}
1079	else
1080	{
1081	gc_ops.paint_char( / xx / column,
1082	/ yy / row,
1083	/ ch / gc_buffer_characters[index - jump],
1084	/ attrs / gc_buffer_attributes[index - jump],
1085	/ ch_previous / gc_buffer_characters[index],
1086	/ attrs_previous / gc_buffer_attributes[index] );
1087	}
1088
1089	gc_buffer_attributes[index] = gc_buffer_attributes[index - jump];
1090	gc_buffer_characters[index] = gc_buffer_characters[index - jump];
1091	gc_buffer_colorcodes[index] = gc_buffer_colorcodes[index - jump];
1092	}
1093	}
1094	}
1095
1096	if ( colorcodesave != gc_color_code )
1097	{
1098	gc_update_color(COLOR_CODE_GET(colorcodesave, TRUE ), TRUE );
1099	gc_update_color(COLOR_CODE_GET(colorcodesave, FALSE), FALSE);
1100	}
1101
1102	/ Now set the freed up lines to the background colour /
1103
1104	for ( row = top ; row < top + num ; row++ )
1105	{
1106	index = row * gc_buffer_columns;
1107
1108	for ( column = `0` ; column < gc_buffer_columns ; index++, column++ )
1109	{
1110	if ( gc_buffer_attributes[index] != ATTR_NONE \|\|
1111	gc_buffer_characters[index] != `' '` \|\|
1112	gc_buffer_colorcodes[index] != gc_color_code )
1113	{
1114	if ( gc_buffer_colorcodes[index] != gc_color_code )
1115	{
1116	gc_ops.paint_char( / xx / column,
1117	/ yy / row,
1118	/ ch / `' '`,
1119	/ attrs / ATTR_NONE,
1120	/ ch_previous / `0`,
1121	/ attrs_previous / `0` );
1122	}
1123	else
1124	{
1125	gc_ops.paint_char( / xx / column,
1126	/ yy / row,
1127	/ ch / `' '`,
1128	/ attrs / ATTR_NONE,
1129	/ ch_previous / gc_buffer_characters[index],
1130	/ attrs_previous / gc_buffer_attributes[index] );
1131	}
1132
1133	gc_buffer_attributes[index] = ATTR_NONE;
1134	gc_buffer_characters[index] = `' '`;
1135	gc_buffer_colorcodes[index] = gc_color_code;
1136	}
1137	}
1138	}
1139	}
1140	else
1141	{
1142	gc_ops.scroll_down(num, top, bottom);
1143
1144	/ Now set the freed up lines to the background colour /
1145
1146	gc_clear_screen(vinfo.v_columns - `1`, top + num - `1`, top, bottom, `1`);
1147	}
1148	}
1149
1150	static void
1151	gc_scroll_up(int num, unsigned int top, unsigned int bottom)
1152	{
1153	if (!gc_buffer_size) return;
1154
1155	if ( bottom <= gc_buffer_rows )
1156	{
1157	unsigned char colorcodesave = gc_color_code;
1158	uint32_t column, row;
1159	uint32_t index, jump;
1160
1161	jump = num * gc_buffer_columns;
1162
1163	for ( row = top ; row < bottom - num ; row++ )
1164	{
1165	index = row * gc_buffer_columns;
1166
1167	for ( column = `0` ; column < gc_buffer_columns ; index++, column++ )
1168	{
1169	if ( gc_buffer_attributes[index] != gc_buffer_attributes[index + jump] \|\|
1170	gc_buffer_characters[index] != gc_buffer_characters[index + jump] \|\|
1171	gc_buffer_colorcodes[index] != gc_buffer_colorcodes[index + jump] )
1172	{
1173	if ( gc_color_code != gc_buffer_colorcodes[index + jump] )
1174	{
1175	gc_update_color(COLOR_CODE_GET(gc_buffer_colorcodes[index + jump], TRUE ), TRUE );
1176	gc_update_color(COLOR_CODE_GET(gc_buffer_colorcodes[index + jump], FALSE), FALSE);
1177	}
1178
1179	if ( gc_buffer_colorcodes[index] != gc_buffer_colorcodes[index + jump] )
1180	{
1181	gc_ops.paint_char( / xx / column,
1182	/ yy / row,
1183	/ ch / gc_buffer_characters[index + jump],
1184	/ attrs / gc_buffer_attributes[index + jump],
1185	/ ch_previous / `0`,
1186	/ attrs_previous / `0` );
1187	}
1188	else
1189	{
1190	gc_ops.paint_char( / xx / column,
1191	/ yy / row,
1192	/ ch / gc_buffer_characters[index + jump],
1193	/ attrs / gc_buffer_attributes[index + jump],
1194	/ ch_previous / gc_buffer_characters[index],
1195	/ attrs_previous / gc_buffer_attributes[index] );
1196	}
1197
1198	gc_buffer_attributes[index] = gc_buffer_attributes[index + jump];
1199	gc_buffer_characters[index] = gc_buffer_characters[index + jump];
1200	gc_buffer_colorcodes[index] = gc_buffer_colorcodes[index + jump];
1201	}
1202	}
1203	}
1204
1205	if ( colorcodesave != gc_color_code )
1206	{
1207	gc_update_color(COLOR_CODE_GET(colorcodesave, TRUE ), TRUE );
1208	gc_update_color(COLOR_CODE_GET(colorcodesave, FALSE), FALSE);
1209	}
1210
1211	/ Now set the freed up lines to the background colour /
1212
1213	for ( row = bottom - num ; row < bottom ; row++ )
1214	{
1215	index = row * gc_buffer_columns;
1216
1217	for ( column = `0` ; column < gc_buffer_columns ; index++, column++ )
1218	{
1219	if ( gc_buffer_attributes[index] != ATTR_NONE \|\|
1220	gc_buffer_characters[index] != `' '` \|\|
1221	gc_buffer_colorcodes[index] != gc_color_code )
1222	{
1223	if ( gc_buffer_colorcodes[index] != gc_color_code )
1224	{
1225	gc_ops.paint_char( / xx / column,
1226	/ yy / row,
1227	/ ch / `' '`,
1228	/ attrs / ATTR_NONE,
1229	/ ch_previous / `0`,
1230	/ attrs_previous / `0` );
1231	}
1232	else
1233	{
1234	gc_ops.paint_char( / xx / column,
1235	/ yy / row,
1236	/ ch / `' '`,
1237	/ attrs / ATTR_NONE,
1238	/ ch_previous / gc_buffer_characters[index],
1239	/ attrs_previous / gc_buffer_attributes[index] );
1240	}
1241
1242	gc_buffer_attributes[index] = ATTR_NONE;
1243	gc_buffer_characters[index] = `' '`;
1244	gc_buffer_colorcodes[index] = gc_color_code;
1245	}
1246	}
1247	}
1248	}
1249	else
1250	{
1251	gc_ops.scroll_up(num, top, bottom);
1252
1253	/ Now set the freed up lines to the background colour /
1254
1255	gc_clear_screen(`0`, bottom - num, top, bottom, `0`);
1256	}
1257	}
1258
1259	static void
1260	gc_show_cursor(unsigned int xx, unsigned int yy)
1261	{
1262	if ( xx < gc_buffer_columns && yy < gc_buffer_rows )
1263	{
1264	uint32_t index = (yy * gc_buffer_columns) + xx;
1265	unsigned char attribute = gc_buffer_attributes[index];
1266	unsigned char character = gc_buffer_characters[index];
1267	unsigned char colorcode = gc_buffer_colorcodes[index];
1268	unsigned char colorcodesave = gc_color_code;
1269
1270	gc_update_color(COLOR_CODE_GET(colorcode, FALSE), TRUE );
1271	gc_update_color(COLOR_CODE_GET(colorcode, TRUE ), FALSE);
1272
1273	gc_ops.paint_char(xx, yy, character, attribute, `0`, `0`);
1274
1275	gc_update_color(COLOR_CODE_GET(colorcodesave, TRUE ), TRUE );
1276	gc_update_color(COLOR_CODE_GET(colorcodesave, FALSE), FALSE);
1277	}
1278	else
1279	{
1280	gc_ops.show_cursor(xx, yy);
1281	}
1282	}
1283
1284	static void
1285	gc_update_color(int color, boolean_t fore)
1286	{
1287	assert(gc_ops.update_color);
1288
1289	gc_color_code = COLOR_CODE_SET(gc_color_code, color, fore);
1290	gc_ops.update_color(color, fore);
1291	}
1292
1293	void
1294	vcputc(__unused int l, __unused int u, int c)
1295	{
1296	if ( gc_initialized && gc_enabled )
1297	{
1298	spl_t s;
1299
1300	s = splhigh();
1301	#if defined(__i386__) \|\| defined(__x86_64__)
1302	x86_filter_TLB_coherency_interrupts(TRUE);
1303	#endif
1304	VCPUTC_LOCK_LOCK();
1305	if ( gc_enabled )
1306	{
1307	gc_hide_cursor(gc_x, gc_y);
1308	gc_putchar(c);
1309	gc_show_cursor(gc_x, gc_y);
1310	}
1311	VCPUTC_LOCK_UNLOCK();
1312	#if defined(__i386__) \|\| defined(__x86_64__)
1313	x86_filter_TLB_coherency_interrupts(FALSE);
1314	#endif
1315	splx(s);
1316	}
1317	}
1318
1319	/*
1320	* Video Console (Back-End)
1321	* ------------------------
1322	*/
1323
1324	/*
1325	* For the color support (Michel Pollet)
1326	*/
1327	static unsigned char vc_color_index_table[`33`] =
1328	{ `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`,
1329	`1`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `0`, `3`, `0`, `2` };
1330
1331	static uint32_t vc_colors[`8`][`4`] = {
1332	{ `0xFFFFFFFF`, `0x00000000`, `0x00000000`, `0x00000000` }, / black /
1333	{ `0x23232323`, `0x7C007C00`, `0x00FF0000`, `0x3FF00000` }, / red /
1334	{ `0xb9b9b9b9`, `0x03e003e0`, `0x0000FF00`, `0x000FFC00` }, / green /
1335	{ `0x05050505`, `0x7FE07FE0`, `0x00FFFF00`, `0x3FFFFC00` }, / yellow /
1336	{ `0xd2d2d2d2`, `0x001f001f`, `0x000000FF`, `0x000003FF` }, / blue /
1337	// { 0x80808080, 0x31933193, 0x00666699, 0x00000000 }, / blue /
1338	{ `0x18181818`, `0x7C1F7C1F`, `0x00FF00FF`, `0x3FF003FF` }, / magenta /
1339	{ `0xb4b4b4b4`, `0x03FF03FF`, `0x0000FFFF`, `0x000FFFFF` }, / cyan /
1340	{ `0x00000000`, `0x7FFF7FFF`, `0x00FFFFFF`, `0x3FFFFFFF` } / white /
1341	};
1342
1343	static uint32_t vc_color_fore = `0`;
1344	static uint32_t vc_color_back = `0`;
1345
1346	/*
1347	* New Rendering code from Michel Pollet
1348	*/
1349
1350	/ Rendered Font Buffer /
1351	static unsigned char *vc_rendered_font = NULL;
1352
1353	/ Rendered Font Size /
1354	static uint32_t vc_rendered_font_size = `0`;
1355
1356	/ Size of a character in the table (bytes) /
1357	static int vc_rendered_char_size = `0`;
1358
1359	#define REN_MAX_DEPTH 32
1360	static unsigned char vc_rendered_char[ISO_CHAR_HEIGHT * ((REN_MAX_DEPTH / `8`) * ISO_CHAR_WIDTH)];
1361
1362	#if !CONFIG_EMBEDDED
1363	static void
1364	internal_set_progressmeter(int new_value);
1365	static void
1366	internal_enable_progressmeter(int new_value);
1367
1368	enum
1369	{
1370	kProgressMeterOff = FALSE,
1371	kProgressMeterUser = TRUE,
1372	kProgressMeterKernel = `3`,
1373	};
1374	enum
1375	{
1376	kProgressMeterMax = `1024`,
1377	kProgressMeterEnd = `512`,
1378	};
1379
1380	#endif /* !CONFIG_EMBEDDED */
1381
1382	static boolean_t vc_progress_white =
1383	#ifdef CONFIG_VC_PROGRESS_WHITE
1384	TRUE;
1385	#else /* !CONFIG_VC_PROGRESS_WHITE */
1386	FALSE;
1387	#endif /* !CONFIG_VC_PROGRESS_WHITE */
1388
1389	static int vc_acquire_delay = kProgressAcquireDelay;
1390
1391	static void
1392	vc_clear_screen(unsigned int xx, unsigned int yy, unsigned int scrreg_top,
1393	unsigned int scrreg_bottom, int which)
1394	{
1395	uint32_t p, endp, *row;
1396	int linelongs, col;
1397	int rowline, rowlongs;
1398
1399	if(!vinfo.v_depth)
1400	return;
1401
1402	linelongs = vinfo.v_rowbytes * (ISO_CHAR_HEIGHT >> `2`);
1403	rowline = vinfo.v_rowscanbytes >> `2`;
1404	rowlongs = vinfo.v_rowbytes >> `2`;
1405
1406	p = (uint32_t*) vinfo.v_baseaddr;
1407	endp = (uint32_t*) vinfo.v_baseaddr;
1408
1409	switch (which) {
1410	case `0`: / To end of screen /
1411	gc_clear_line(xx, yy, `0`);
1412	if (yy < scrreg_bottom - `1`) {
1413	p += (yy + `1`) * linelongs;
1414	endp += scrreg_bottom * linelongs;
1415	}
1416	break;
1417	case `1`: / To start of screen /
1418	gc_clear_line(xx, yy, `1`);
1419	if (yy > scrreg_top) {
1420	p += scrreg_top * linelongs;
1421	endp += yy * linelongs;
1422	}
1423	break;
1424	case `2`: / Whole screen /
1425	p += scrreg_top * linelongs;
1426	if (scrreg_bottom == vinfo.v_rows) {
1427	endp += rowlongs * vinfo.v_height;
1428	} else {
1429	endp += scrreg_bottom * linelongs;
1430	}
1431	break;
1432	}
1433
1434	for (row = p ; row < endp ; row += rowlongs) {
1435	for (col = `0`; col < rowline; col++)
1436	*(row+col) = vc_color_back;
1437	}
1438	}
1439
1440	static void
1441	vc_render_char(unsigned char ch, unsigned char renderptr, short* newdepth)
1442	{
1443	union {
1444	unsigned char *charptr;
1445	unsigned short *shortptr;
1446	uint32_t *longptr;
1447	} current; / current place in rendered font, multiple types. /
1448	unsigned char theChar; /* current char in iso_font /
1449	int line;
1450
1451	current.charptr = renderptr;
1452	theChar = iso_font + (ch * ISO_CHAR_HEIGHT);
1453
1454	for (line = `0`; line < ISO_CHAR_HEIGHT; line++) {
1455	unsigned char mask = `1`;
1456	do {
1457	switch (newdepth) {
1458	case `8`:
1459	current.charptr++ = (theChar & mask) ? `0xFF` : `0`;
1460	break;
1461	case `16`:
1462	current.shortptr++ = (theChar & mask) ? `0xFFFF` : `0`;
1463	break;
1464
1465	case `30`:
1466	case `32`:
1467	current.longptr++ = (theChar & mask) ? `0xFFFFFFFF` : `0`;
1468	break;
1469	}
1470	mask <<= `1`;
1471	} while (mask); / while the single bit drops to the right /
1472	theChar++;
1473	}
1474	}
1475
1476	static void
1477	vc_paint_char_8(unsigned int xx, unsigned int yy, unsigned char ch, int attrs,
1478	__unused unsigned char ch_previous, __unused int attrs_previous)
1479	{
1480	uint32_t *theChar;
1481	uint32_t *where;
1482	int i;
1483
1484	if (vc_rendered_font) {
1485	theChar = (uint32_t)(vc_rendered_font + (ch vc_rendered_char_size));
1486	} else {
1487	vc_render_char(ch, vc_rendered_char, `8`);
1488	theChar = (uint32_t*)(vc_rendered_char);
1489	}
1490	where = (uint32_t*)(vinfo.v_baseaddr +
1491	(yy * ISO_CHAR_HEIGHT * vinfo.v_rowbytes) +
1492	(xx * ISO_CHAR_WIDTH));
1493
1494	if (!attrs) for (i = `0`; i < ISO_CHAR_HEIGHT; i++) { / No attr? FLY !/
1495	uint32_t *store = where;
1496	int x;
1497	for (x = `0`; x < `2`; x++) {
1498	uint32_t val = *theChar++;
1499	val = (vc_color_back & ~val) \| (vc_color_fore & val);
1500	*store++ = val;
1501	}
1502
1503	where = (uint32_t)(((unsigned* char*)where)+vinfo.v_rowbytes);
1504	} else for (i = `0`; i < ISO_CHAR_HEIGHT; i++) { / a little slower /
1505	uint32_t *store = where, lastpixel = `0`;
1506	int x;
1507	for (x = `0` ; x < `2`; x++) {
1508	uint32_t val = *theChar++, save = val;
1509	if (attrs & ATTR_BOLD) { / bold support /
1510	if (lastpixel && !(save & `0xFF000000`))
1511	val \|= `0xff000000`;
1512	if ((save & `0xFFFF0000`) == `0xFF000000`)
1513	val \|= `0x00FF0000`;
1514	if ((save & `0x00FFFF00`) == `0x00FF0000`)
1515	val \|= `0x0000FF00`;
1516	if ((save & `0x0000FFFF`) == `0x0000FF00`)
1517	val \|= `0x000000FF`;
1518	}
1519	if (attrs & ATTR_REVERSE) val = ~val;
1520	if (attrs & ATTR_UNDER && i == ISO_CHAR_HEIGHT-`1`) val = ~val;
1521
1522	val = (vc_color_back & ~val) \| (vc_color_fore & val);
1523	*store++ = val;
1524	lastpixel = save & `0xff`;
1525	}
1526
1527	where = (uint32_t)(((unsigned* char*)where)+vinfo.v_rowbytes);
1528	}
1529
1530	}
1531
1532	static void
1533	vc_paint_char_16(unsigned int xx, unsigned int yy, unsigned char ch, int attrs,
1534	__unused unsigned char ch_previous,
1535	__unused int attrs_previous)
1536	{
1537	uint32_t *theChar;
1538	uint32_t *where;
1539	int i;
1540
1541	if (vc_rendered_font) {
1542	theChar = (uint32_t)(vc_rendered_font + (ch vc_rendered_char_size));
1543	} else {
1544	vc_render_char(ch, vc_rendered_char, `16`);
1545	theChar = (uint32_t*)(vc_rendered_char);
1546	}
1547	where = (uint32_t*)(vinfo.v_baseaddr +
1548	(yy * ISO_CHAR_HEIGHT * vinfo.v_rowbytes) +
1549	(xx * ISO_CHAR_WIDTH * `2`));
1550
1551	if (!attrs) for (i = `0`; i < ISO_CHAR_HEIGHT; i++) { / No attrs ? FLY ! /
1552	uint32_t *store = where;
1553	int x;
1554	for (x = `0`; x < `4`; x++) {
1555	uint32_t val = *theChar++;
1556	val = (vc_color_back & ~val) \| (vc_color_fore & val);
1557	*store++ = val;
1558	}
1559
1560	where = (uint32_t)(((unsigned* char*)where)+vinfo.v_rowbytes);
1561	} else for (i = `0`; i < ISO_CHAR_HEIGHT; i++) { / a little bit slower /
1562	uint32_t *store = where, lastpixel = `0`;
1563	int x;
1564	for (x = `0` ; x < `4`; x++) {
1565	uint32_t val = *theChar++, save = val;
1566	if (attrs & ATTR_BOLD) { / bold support /
1567	if (save == `0xFFFF0000`) val \|= `0xFFFF`;
1568	else if (lastpixel && !(save & `0xFFFF0000`))
1569	val \|= `0xFFFF0000`;
1570	}
1571	if (attrs & ATTR_REVERSE) val = ~val;
1572	if (attrs & ATTR_UNDER && i == ISO_CHAR_HEIGHT-`1`) val = ~val;
1573
1574	val = (vc_color_back & ~val) \| (vc_color_fore & val);
1575
1576	*store++ = val;
1577	lastpixel = save & `0x7fff`;
1578	}
1579
1580	where = (uint32_t)(((unsigned* char*)where)+vinfo.v_rowbytes);
1581	}
1582
1583	}
1584
1585	static void
1586	vc_paint_char_32(unsigned int xx, unsigned int yy, unsigned char ch, int attrs,
1587	unsigned char ch_previous, int attrs_previous)
1588	{
1589	uint32_t *theChar;
1590	uint32_t *theCharPrevious;
1591	uint32_t *where;
1592	int i;
1593
1594	if (vc_rendered_font) {
1595	theChar = (uint32_t)(vc_rendered_font + (ch vc_rendered_char_size));
1596	theCharPrevious = (uint32_t)(vc_rendered_font + (ch_previous vc_rendered_char_size));
1597	} else {
1598	vc_render_char(ch, vc_rendered_char, `32`);
1599	theChar = (uint32_t*)(vc_rendered_char);
1600	theCharPrevious = NULL;
1601	}
1602	if (!ch_previous) {
1603	theCharPrevious = NULL;
1604	}
1605	if (attrs_previous) {
1606	theCharPrevious = NULL;
1607	}
1608	where = (uint32_t*)(vinfo.v_baseaddr +
1609	(yy * ISO_CHAR_HEIGHT * vinfo.v_rowbytes) +
1610	(xx * ISO_CHAR_WIDTH * `4`));
1611
1612	if (!attrs) for (i = `0`; i < ISO_CHAR_HEIGHT; i++) { / No attrs ? FLY ! /
1613	uint32_t *store = where;
1614	int x;
1615	for (x = `0`; x < `8`; x++) {
1616	uint32_t val = *theChar++;
1617	if (theCharPrevious == NULL \|\| val != *theCharPrevious++ ) {
1618	val = (vc_color_back & ~val) \| (vc_color_fore & val);
1619	*store++ = val;
1620	} else {
1621	store++;
1622	}
1623	}
1624
1625	where = (uint32_t )(((unsigned* char*)where)+vinfo.v_rowbytes);
1626	} else for (i = `0`; i < ISO_CHAR_HEIGHT; i++) { / a little slower /
1627	uint32_t *store = where, lastpixel = `0`;
1628	int x;
1629	for (x = `0` ; x < `8`; x++) {
1630	uint32_t val = *theChar++, save = val;
1631	if (attrs & ATTR_BOLD) { / bold support /
1632	if (lastpixel && !save)
1633	val = `0xFFFFFFFF`;
1634	}
1635	if (attrs & ATTR_REVERSE) val = ~val;
1636	if (attrs & ATTR_UNDER && i == ISO_CHAR_HEIGHT-`1`) val = ~val;
1637
1638	val = (vc_color_back & ~val) \| (vc_color_fore & val);
1639	*store++ = val;
1640	lastpixel = save;
1641	}
1642
1643	where = (uint32_t)(((unsigned* char*)where)+vinfo.v_rowbytes);
1644	}
1645
1646	}
1647
1648	static void
1649	vc_paint_char(unsigned int xx, unsigned int yy, unsigned char ch, int attrs,
1650	unsigned char ch_previous, int attrs_previous)
1651	{
1652	if(!vinfo.v_depth)
1653	return;
1654
1655	switch(vinfo.v_depth) {
1656	case `8`:
1657	vc_paint_char_8(xx, yy, ch, attrs, ch_previous, attrs_previous);
1658	break;
1659	case `16`:
1660	vc_paint_char_16(xx, yy, ch, attrs, ch_previous,
1661	attrs_previous);
1662	break;
1663	case `30`:
1664	case `32`:
1665	vc_paint_char_32(xx, yy, ch, attrs, ch_previous,
1666	attrs_previous);
1667	break;
1668	}
1669	}
1670
1671	static void
1672	vc_render_font(short newdepth)
1673	{
1674	static short olddepth = `0`;
1675
1676	int charindex; / index in ISO font /
1677	unsigned char *rendered_font;
1678	unsigned int rendered_font_size;
1679	int rendered_char_size;
1680	spl_t s;
1681
1682	if (vm_initialized == FALSE) {
1683	return; / nothing to do /
1684	}
1685	if (olddepth == newdepth && vc_rendered_font) {
1686	return; / nothing to do /
1687	}
1688
1689	s = splhigh();
1690	VCPUTC_LOCK_LOCK();
1691
1692	rendered_font = vc_rendered_font;
1693	rendered_font_size = vc_rendered_font_size;
1694	rendered_char_size = vc_rendered_char_size;
1695
1696	vc_rendered_font = NULL;
1697	vc_rendered_font_size = `0`;
1698	vc_rendered_char_size = `0`;
1699
1700	VCPUTC_LOCK_UNLOCK();
1701	splx(s);
1702
1703	if (rendered_font) {
1704	kfree(rendered_font, rendered_font_size);
1705	rendered_font = NULL;
1706	}
1707
1708	if (newdepth) {
1709	rendered_char_size = ISO_CHAR_HEIGHT * (((newdepth + `7`) / `8`) * ISO_CHAR_WIDTH);
1710	rendered_font_size = (ISO_CHAR_MAX-ISO_CHAR_MIN+`1`) * rendered_char_size;
1711	rendered_font = (unsigned char *) kalloc(rendered_font_size);
1712	}
1713
1714	if (rendered_font == NULL) {
1715	return;
1716	}
1717
1718	for (charindex = ISO_CHAR_MIN; charindex <= ISO_CHAR_MAX; charindex++) {
1719	vc_render_char(charindex, rendered_font + (charindex * rendered_char_size), newdepth);
1720	}
1721
1722	olddepth = newdepth;
1723
1724	s = splhigh();
1725	VCPUTC_LOCK_LOCK();
1726
1727	vc_rendered_font = rendered_font;
1728	vc_rendered_font_size = rendered_font_size;
1729	vc_rendered_char_size = rendered_char_size;
1730
1731	VCPUTC_LOCK_UNLOCK();
1732	splx(s);
1733	}
1734
1735	static void
1736	vc_enable(boolean_t enable)
1737	{
1738	vc_render_font(enable ? vinfo.v_depth : `0`);
1739	}
1740
1741	static void
1742	vc_reverse_cursor(unsigned int xx, unsigned int yy)
1743	{
1744	uint32_t *where;
1745	int line, col;
1746
1747	if(!vinfo.v_depth)
1748	return;
1749
1750	where = (uint32_t*)(vinfo.v_baseaddr +
1751	(yy * ISO_CHAR_HEIGHT * vinfo.v_rowbytes) +
1752	(xx /* ISO_CHAR_WIDTH/ * vinfo.v_depth));
1753	for (line = `0`; line < ISO_CHAR_HEIGHT; line++) {
1754	switch (vinfo.v_depth) {
1755	case `8`:
1756	where[`0`] = ~where[`0`];
1757	where[`1`] = ~where[`1`];
1758	break;
1759	case `16`:
1760	for (col = `0`; col < `4`; col++)
1761	where[col] = ~where[col];
1762	break;
1763	case `32`:
1764	for (col = `0`; col < `8`; col++)
1765	where[col] = ~where[col];
1766	break;
1767	}
1768	where = (uint32_t)(((unsigned* char*)where)+vinfo.v_rowbytes);
1769	}
1770	}
1771
1772	static void
1773	vc_scroll_down(int num, unsigned int scrreg_top, unsigned int scrreg_bottom)
1774	{
1775	uint32_t from, to, linelongs, i, line, rowline, rowscanline;
1776
1777	if(!vinfo.v_depth)
1778	return;
1779
1780	linelongs = vinfo.v_rowbytes * (ISO_CHAR_HEIGHT >> `2`);
1781	rowline = vinfo.v_rowbytes >> `2`;
1782	rowscanline = vinfo.v_rowscanbytes >> `2`;
1783
1784	to = (uint32_t ) vinfo.v_baseaddr + (linelongs scrreg_bottom)
1785	- (rowline - rowscanline);
1786	from = to - (linelongs * num); / handle multiple line scroll (Michel Pollet) /
1787
1788	i = (scrreg_bottom - scrreg_top) - num;
1789
1790	while (i-- > `0`) {
1791	for (line = `0`; line < ISO_CHAR_HEIGHT; line++) {
1792	/*
1793	* Only copy what is displayed
1794	*/
1795	video_scroll_down(from,
1796	(from-(vinfo.v_rowscanbytes >> `2`)),
1797	to);
1798
1799	from -= rowline;
1800	to -= rowline;
1801	}
1802	}
1803	}
1804
1805	static void
1806	vc_scroll_up(int num, unsigned int scrreg_top, unsigned int scrreg_bottom)
1807	{
1808	uint32_t from, to, linelongs, i, line, rowline, rowscanline;
1809
1810	if(!vinfo.v_depth)
1811	return;
1812
1813	linelongs = vinfo.v_rowbytes * (ISO_CHAR_HEIGHT >> `2`);
1814	rowline = vinfo.v_rowbytes >> `2`;
1815	rowscanline = vinfo.v_rowscanbytes >> `2`;
1816
1817	to = (uint32_t ) vinfo.v_baseaddr + (scrreg_top linelongs);
1818	from = to + (linelongs * num); / handle multiple line scroll (Michel Pollet) /
1819
1820	i = (scrreg_bottom - scrreg_top) - num;
1821
1822	while (i-- > `0`) {
1823	for (line = `0`; line < ISO_CHAR_HEIGHT; line++) {
1824	/*
1825	* Only copy what is displayed
1826	*/
1827	video_scroll_up(from,
1828	(from+(vinfo.v_rowscanbytes >> `2`)),
1829	to);
1830
1831	from += rowline;
1832	to += rowline;
1833	}
1834	}
1835	}
1836
1837	static void
1838	vc_update_color(int color, boolean_t fore)
1839	{
1840	if (!vinfo.v_depth)
1841	return;
1842	if (fore) {
1843	vc_color_fore = vc_colors[color][vc_color_index_table[vinfo.v_depth]];
1844	} else {
1845	vc_color_back = vc_colors[color][vc_color_index_table[vinfo.v_depth]];
1846	}
1847	}
1848
1849	/*
1850	* Video Console (Back-End): Icon Control
1851	* --------------------------------------
1852	*/
1853
1854	static vc_progress_element * vc_progress;
1855	enum { kMaxProgressData = `3` };
1856	static const unsigned char * vc_progress_data[kMaxProgressData];
1857	static const unsigned char * vc_progress_alpha;
1858	static boolean_t vc_progress_enable;
1859	static const unsigned char * vc_clut;
1860	static const unsigned char * vc_clut8;
1861	static unsigned char vc_revclut8[`256`];
1862	static uint32_t vc_progress_interval;
1863	static uint32_t vc_progress_count;
1864	static uint32_t vc_progress_angle;
1865	static uint64_t vc_progress_deadline;
1866	static thread_call_data_t vc_progress_call;
1867	static boolean_t vc_needsave;
1868	static void * vc_saveunder;
1869	static vm_size_t vc_saveunder_len;
1870	static int8_t vc_uiscale = `1`;
1871	vc_progress_user_options vc_progress_options;
1872	vc_progress_user_options vc_user_options;
1873
1874	decl_simple_lock_data(,vc_progress_lock)
1875
1876	#if !CONFIG_EMBEDDED
1877	static int vc_progress_withmeter = `3`;
1878	int vc_progressmeter_enable;
1879	static int vc_progressmeter_drawn;
1880	int vc_progressmeter_value;
1881	static uint32_t vc_progressmeter_count;
1882	static uint32_t vc_progress_meter_start;
1883	static uint32_t vc_progress_meter_end;
1884	static uint64_t vc_progressmeter_interval;
1885	static uint64_t vc_progressmeter_deadline;
1886	static thread_call_data_t vc_progressmeter_call;
1887	static void * vc_progressmeter_backbuffer;
1888	static boolean_t vc_progressmeter_hold;
1889	static uint32_t vc_progressmeter_diskspeed = `256`;
1890
1891	#endif /* !CONFIG_EMBEDDED */
1892
1893	enum {
1894	kSave = `0x10`,
1895	kDataIndexed = `0x20`,
1896	kDataAlpha = `0x40`,
1897	kDataBack = `0x80`,
1898	kDataRotate = `0x03`,
1899	kDataRotate0 = `0`,
1900	kDataRotate90 = `1`,
1901	kDataRotate180 = `2`,
1902	kDataRotate270 = `3`
1903	};
1904
1905	static void vc_blit_rect(int x, int y, int bx,
1906	int width, int height,
1907	int sourceRow, int backRow,
1908	const unsigned char * dataPtr,
1909	void * backBuffer,
1910	unsigned int flags);
1911	static void vc_blit_rect_8(int x, int y, int bx,
1912	int width, int height,
1913	int sourceRow, int backRow,
1914	const unsigned char * dataPtr,
1915	unsigned char * backBuffer,
1916	unsigned int flags);
1917	static void vc_blit_rect_16(int x, int y, int bx,
1918	int width, int height,
1919	int sourceRow, int backRow,
1920	const unsigned char * dataPtr,
1921	unsigned short * backBuffer,
1922	unsigned int flags);
1923	static void vc_blit_rect_32(int x, int y, int bx,
1924	int width, int height,
1925	int sourceRow, int backRow,
1926	const unsigned char * dataPtr,
1927	unsigned int * backBuffer,
1928	unsigned int flags);
1929	static void vc_blit_rect_30(int x, int y, int bx,
1930	int width, int height,
1931	int sourceRow, int backRow,
1932	const unsigned char * dataPtr,
1933	unsigned int * backBuffer,
1934	unsigned int flags);
1935	static void vc_progress_task( void * arg0, void * arg );
1936	#if !CONFIG_EMBEDDED
1937	static void vc_progressmeter_task( void * arg0, void * arg );
1938	#endif /* !CONFIG_EMBEDDED */
1939
1940	static void vc_blit_rect(int x, int y, int bx,
1941	int width, int height,
1942	int sourceRow, int backRow,
1943	const unsigned char * dataPtr,
1944	void * backBuffer,
1945	unsigned int flags)
1946	{
1947	if (!vinfo.v_depth) return;
1948	if (((unsigned int)(x + width)) > vinfo.v_width) return;
1949	if (((unsigned int)(y + height)) > vinfo.v_height) return;
1950
1951	switch( vinfo.v_depth) {
1952	case `8`:
1953	if( vc_clut8 == vc_clut)
1954	vc_blit_rect_8( x, y, bx, width, height, sourceRow, backRow, dataPtr, (unsigned char *) backBuffer, flags );
1955	break;
1956	case `16`:
1957	vc_blit_rect_16( x, y, bx, width, height, sourceRow, backRow, dataPtr, (unsigned short *) backBuffer, flags );
1958	break;
1959	case `32`:
1960	vc_blit_rect_32( x, y, bx, width, height, sourceRow, backRow, dataPtr, (unsigned int *) backBuffer, flags );
1961	break;
1962	case `30`:
1963	vc_blit_rect_30( x, y, bx, width, height, sourceRow, backRow, dataPtr, (unsigned int *) backBuffer, flags );
1964	break;
1965	}
1966	}
1967
1968	static void
1969	vc_blit_rect_8(int x, int y, __unused int bx,
1970	int width, int height,
1971	int sourceRow, __unused int backRow,
1972	const unsigned char * dataPtr,
1973	__unused unsigned char * backBuffer,
1974	__unused unsigned int flags)
1975	{
1976	volatile unsigned short * dst;
1977	int line, col;
1978	unsigned int data = `0`, out = `0`;
1979	int sx, sy, a, b, c, d;
1980	int scale = `0x10000`;
1981
1982	a = vc_rotate_matr[kDataRotate & flags][`0`][`0`] * scale;
1983	b = vc_rotate_matr[kDataRotate & flags][`0`][`1`] * scale;
1984	c = vc_rotate_matr[kDataRotate & flags][`1`][`0`] * scale;
1985	d = vc_rotate_matr[kDataRotate & flags][`1`][`1`] * scale;
1986	sx = ((a + b) < `0`) ? ((width * scale) - `0x8000`) : `0`;
1987	sy = ((c + d) < `0`) ? ((height * scale) - `0x8000`) : `0`;
1988
1989	if (!sourceRow) data = (unsigned int)(uintptr_t)dataPtr;
1990	else if (`1` == sourceRow) a = `0`;
1991
1992	dst = (volatile unsigned short *) (vinfo.v_baseaddr +
1993	(y * vinfo.v_rowbytes) +
1994	(x * `4`));
1995
1996	for( line = `0`; line < height; line++)
1997	{
1998	for( col = `0`; col < width; col++)
1999	{
2000	if (sourceRow) data = dataPtr[((sx + (col * a) + (line * b)) >> `16`)
2001	+ sourceRow * (((sy + (col * c) + (line * d)) >> `16`))];
2002	if (kDataAlpha & flags)
2003	out = vc_revclut8[data];
2004	else
2005	out = data;
2006	*(dst + col) = out;
2007	}
2008	dst = (volatile unsigned short ) (((volatile* char*)dst) + vinfo.v_rowbytes);
2009	}
2010	}
2011
2012	/ For ARM, 16-bit is 565 (RGB); it is 1555 (XRGB) on other platforms /
2013
2014	#ifdef __arm__
2015	#define CLUT_MASK_R 0xf8
2016	#define CLUT_MASK_G 0xfc
2017	#define CLUT_MASK_B 0xf8
2018	#define CLUT_SHIFT_R << 8
2019	#define CLUT_SHIFT_G << 3
2020	#define CLUT_SHIFT_B >> 3
2021	#define MASK_R 0xf800
2022	#define MASK_G 0x07e0
2023	#define MASK_B 0x001f
2024	#define MASK_R_8 0x7f800
2025	#define MASK_G_8 0x01fe0
2026	#define MASK_B_8 0x000ff
2027	#else
2028	#define CLUT_MASK_R 0xf8
2029	#define CLUT_MASK_G 0xf8
2030	#define CLUT_MASK_B 0xf8
2031	#define CLUT_SHIFT_R << 7
2032	#define CLUT_SHIFT_G << 2
2033	#define CLUT_SHIFT_B >> 3
2034	#define MASK_R 0x7c00
2035	#define MASK_G 0x03e0
2036	#define MASK_B 0x001f
2037	#define MASK_R_8 0x3fc00
2038	#define MASK_G_8 0x01fe0
2039	#define MASK_B_8 0x000ff
2040	#endif
2041
2042	static void vc_blit_rect_16( int x, int y, int bx,
2043	int width, int height,
2044	int sourceRow, int backRow,
2045	const unsigned char * dataPtr,
2046	unsigned short * backPtr,
2047	unsigned int flags)
2048	{
2049	volatile unsigned short * dst;
2050	int line, col;
2051	unsigned int data = `0`, out = `0`, back = `0`;
2052	int sx, sy, a, b, c, d;
2053	int scale = `0x10000`;
2054
2055	a = vc_rotate_matr[kDataRotate & flags][`0`][`0`] * scale;
2056	b = vc_rotate_matr[kDataRotate & flags][`0`][`1`] * scale;
2057	c = vc_rotate_matr[kDataRotate & flags][`1`][`0`] * scale;
2058	d = vc_rotate_matr[kDataRotate & flags][`1`][`1`] * scale;
2059	sx = ((a + b) < `0`) ? ((width * scale) - `0x8000`) : `0`;
2060	sy = ((c + d) < `0`) ? ((height * scale) - `0x8000`) : `0`;
2061
2062	if (!sourceRow) data = (unsigned int)(uintptr_t)dataPtr;
2063	else if (`1` == sourceRow) a = `0`;
2064
2065	if (backPtr)
2066	backPtr += bx;
2067	dst = (volatile unsigned short *) (vinfo.v_baseaddr +
2068	(y * vinfo.v_rowbytes) +
2069	(x * `2`));
2070
2071	for( line = `0`; line < height; line++)
2072	{
2073	for( col = `0`; col < width; col++)
2074	{
2075	if (sourceRow) data = dataPtr[((sx + (col * a) + (line * b)) >> `16`)
2076	+ sourceRow * (((sy + (col * c) + (line * d)) >> `16`))];
2077	if (backPtr) {
2078	if (kSave & flags) {
2079	back = *(dst + col);
2080	*backPtr++ = back;
2081	} else
2082	back = *backPtr++;
2083	}
2084	if (kDataIndexed & flags) {
2085	out = ( (CLUT_MASK_R & (vc_clut[data*`3` + `0`])) CLUT_SHIFT_R)
2086	\| ( (CLUT_MASK_G & (vc_clut[data*`3` + `1`])) CLUT_SHIFT_G)
2087	\| ( (CLUT_MASK_B & (vc_clut[data*`3` + `2`])) CLUT_SHIFT_B);
2088	} else if (kDataAlpha & flags) {
2089	out = (((((back & MASK_R) * data) + MASK_R_8) >> `8`) & MASK_R)
2090	\| (((((back & MASK_G) * data) + MASK_G_8) >> `8`) & MASK_G)
2091	\| (((((back & MASK_B) * data) + MASK_B_8) >> `8`) & MASK_B);
2092	if (vc_progress_white) out += (((`0xff` - data) & CLUT_MASK_R) CLUT_SHIFT_R)
2093	\| (((`0xff` - data) & CLUT_MASK_G) CLUT_SHIFT_G)
2094	\| (((`0xff` - data) & CLUT_MASK_B) CLUT_SHIFT_B);
2095	} else if (kDataBack & flags)
2096	out = back;
2097	else
2098	out = data;
2099	*(dst + col) = out;
2100	}
2101	dst = (volatile unsigned short ) (((volatile* char*)dst) + vinfo.v_rowbytes);
2102	if (backPtr)
2103	backPtr += backRow - width;
2104	}
2105	}
2106
2107
2108	static void vc_blit_rect_32(int x, int y, int bx,
2109	int width, int height,
2110	int sourceRow, int backRow,
2111	const unsigned char * dataPtr,
2112	unsigned int * backPtr,
2113	unsigned int flags)
2114	{
2115	volatile unsigned int * dst;
2116	int line, col;
2117	unsigned int data = `0`, out = `0`, back = `0`;
2118	int sx, sy, a, b, c, d;
2119	int scale = `0x10000`;
2120
2121	a = vc_rotate_matr[kDataRotate & flags][`0`][`0`] * scale;
2122	b = vc_rotate_matr[kDataRotate & flags][`0`][`1`] * scale;
2123	c = vc_rotate_matr[kDataRotate & flags][`1`][`0`] * scale;
2124	d = vc_rotate_matr[kDataRotate & flags][`1`][`1`] * scale;
2125	sx = ((a + b) < `0`) ? ((width * scale) - `0x8000`) : `0`;
2126	sy = ((c + d) < `0`) ? ((height * scale) - `0x8000`) : `0`;
2127
2128	if (!sourceRow) data = (unsigned int)(uintptr_t)dataPtr;
2129	else if (`1` == sourceRow) a = `0`;
2130
2131	if (backPtr)
2132	backPtr += bx;
2133	dst = (volatile unsigned int *) (vinfo.v_baseaddr +
2134	(y * vinfo.v_rowbytes) +
2135	(x * `4`));
2136
2137	for( line = `0`; line < height; line++)
2138	{
2139	for( col = `0`; col < width; col++)
2140	{
2141	if (sourceRow) data = dataPtr[((sx + (col * a) + (line * b)) >> `16`)
2142	+ sourceRow * (((sy + (col * c) + (line * d)) >> `16`))];
2143	if (backPtr) {
2144	if (kSave & flags) {
2145	back = *(dst + col);
2146	*backPtr++ = back;
2147	} else
2148	back = *backPtr++;
2149	}
2150	if (kDataIndexed & flags) {
2151	out = (vc_clut[data*`3` + `0`] << `16`)
2152	\| (vc_clut[data*`3` + `1`] << `8`)
2153	\| (vc_clut[data*`3` + `2`]);
2154	} else if (kDataAlpha & flags) {
2155	out = (((((back & `0x00ff00ff`) * data) + `0x00ff00ff`) >> `8`) & `0x00ff00ff`)
2156	\| (((((back & `0x0000ff00`) * data) + `0x0000ff00`) >> `8`) & `0x0000ff00`);
2157	if (vc_progress_white) out += ((`0xff` - data) << `16`)
2158	\| ((`0xff` - data) << `8`)
2159	\| (`0xff` - data);
2160	} else if (kDataBack & flags)
2161	out = back;
2162	else
2163	out = data;
2164	*(dst + col) = out;
2165	}
2166	dst = (volatile unsigned int ) (((volatile* char*)dst) + vinfo.v_rowbytes);
2167	if (backPtr)
2168	backPtr += backRow - width;
2169	}
2170	}
2171
2172	static void vc_blit_rect_30(int x, int y, int bx,
2173	int width, int height,
2174	int sourceRow, int backRow,
2175	const unsigned char * dataPtr,
2176	unsigned int * backPtr,
2177	unsigned int flags)
2178	{
2179	volatile unsigned int * dst;
2180	int line, col;
2181	unsigned int data = `0`, out = `0`, back = `0`;
2182	unsigned long long exp;
2183	int sx, sy, a, b, c, d;
2184	int scale = `0x10000`;
2185
2186	a = vc_rotate_matr[kDataRotate & flags][`0`][`0`] * scale;
2187	b = vc_rotate_matr[kDataRotate & flags][`0`][`1`] * scale;
2188	c = vc_rotate_matr[kDataRotate & flags][`1`][`0`] * scale;
2189	d = vc_rotate_matr[kDataRotate & flags][`1`][`1`] * scale;
2190	sx = ((a + b) < `0`) ? ((width * scale) - `0x8000`) : `0`;
2191	sy = ((c + d) < `0`) ? ((height * scale) - `0x8000`) : `0`;
2192
2193	if (!sourceRow) data = (unsigned int)(uintptr_t)dataPtr;
2194	else if (`1` == sourceRow) a = `0`;
2195
2196	if (backPtr)
2197	backPtr += bx;
2198	dst = (volatile unsigned int *) (vinfo.v_baseaddr +
2199	(y * vinfo.v_rowbytes) +
2200	(x * `4`));
2201
2202	for( line = `0`; line < height; line++)
2203	{
2204	for( col = `0`; col < width; col++)
2205	{
2206	if (sourceRow) data = dataPtr[((sx + (col * a) + (line * b)) >> `16`)
2207	+ sourceRow * (((sy + (col * c) + (line * d)) >> `16`))];
2208	if (backPtr) {
2209	if (kSave & flags) {
2210	back = *(dst + col);
2211	*backPtr++ = back;
2212	} else
2213	back = *backPtr++;
2214	}
2215	if (kDataIndexed & flags) {
2216	out = (vc_clut[data*`3` + `0`] << `22`)
2217	\| (vc_clut[data*`3` + `1`] << `12`)
2218	\| (vc_clut[data*`3` + `2`] << `2`);
2219	} else if (kDataAlpha & flags) {
2220	exp = back;
2221	exp = (((((exp & `0x3FF003FF`) * data) + `0x0FF000FF`) >> `8`) & `0x3FF003FF`)
2222	\| (((((exp & `0x000FFC00`) * data) + `0x0003FC00`) >> `8`) & `0x000FFC00`);
2223	out = (unsigned int)exp;
2224	if (vc_progress_white) out += ((`0xFF` - data) << `22`)
2225	\| ((`0xFF` - data) << `12`)
2226	\| ((`0xFF` - data) << `2`);
2227	} else if (kDataBack & flags)
2228	out = back;
2229	else
2230	out = data;
2231	*(dst + col) = out;
2232	}
2233	dst = (volatile unsigned int ) (((volatile* char*)dst) + vinfo.v_rowbytes);
2234	if (backPtr)
2235	backPtr += backRow - width;
2236	}
2237	}
2238
2239	static void vc_clean_boot_graphics(void)
2240	{
2241	#if !CONFIG_EMBEDDED
2242	// clean up possible FDE login graphics
2243	vc_progress_set(FALSE, `0`);
2244	const unsigned char *
2245	color = (typeof(color))(uintptr_t)(vc_progress_white ? `0x00000000` : `0xBFBFBFBF`);
2246	vc_blit_rect(`0`, `0`, `0`, vinfo.v_width, vinfo.v_height, `0`, `0`, color, NULL, `0`);
2247	#endif
2248	}
2249
2250	/*
2251	* Routines to render the lzss image format
2252	*/
2253
2254	struct lzss_image_state {
2255	uint32_t col;
2256	uint32_t row;
2257	uint32_t width;
2258	uint32_t height;
2259	uint32_t bytes_per_row;
2260	volatile uint32_t * row_start;
2261	const uint8_t* clut;
2262	};
2263	typedef struct lzss_image_state lzss_image_state;
2264
2265	// returns 0 if OK, 1 if error
2266	static inline int
2267	vc_decompress_lzss_next_pixel (int next_data, lzss_image_state* state)
2268	{
2269	uint32_t palette_index = `0`;
2270	uint32_t pixel_value = `0`;
2271
2272	palette_index = next_data * `3`;
2273
2274	pixel_value = ( (uint32_t) state->clut[palette_index + `0`] << `16`)
2275	\| ( (uint32_t) state->clut[palette_index + `1`] << `8`)
2276	\| ( (uint32_t) state->clut[palette_index + `2`]);
2277
2278	*(state->row_start + state->col) = pixel_value;
2279
2280	if (++state->col >= state->width) {
2281	state->col = `0`;
2282	if (++state->row >= state->height) {
2283	return `1`;
2284	}
2285	state->row_start = (volatile uint32_t *) (((uintptr_t)state->row_start) + state->bytes_per_row);
2286	}
2287	return `0`;
2288	}
2289
2290
2291	/*
2292	* Blit an lzss compressed image to the framebuffer
2293	* Assumes 32 bit screen (which is everything we ship at the moment)
2294	* The function vc_display_lzss_icon was copied from libkern/mkext.c, then modified.
2295	*/
2296
2297	/*
2298	* TODO: Does lzss use too much stack? 4096 plus bytes...
2299	* Can probably chop it down by 1/2.
2300	*/
2301
2302	/**************************************************************
2303	LZSS.C -- A Data Compression Program
2304	***************************************************************
2305	4/6/1989 Haruhiko Okumura
2306	Use, distribute, and modify this program freely.
2307	Please send me your improved versions.
2308	PC-VAN SCIENCE
2309	NIFTY-Serve PAF01022
2310	CompuServe 74050,1022
2311
2312	**************************************************************/
2313
2314	#define N 4096 /* size of ring buffer - must be power of 2 */
2315	#define F 18 /* upper limit for match_length */
2316	#define THRESHOLD 2 /* encode string into position and length
2317	if match_length is greater than this */
2318
2319	// returns 0 if OK, 1 if error
2320	// x and y indicate upper left corner of image location on screen
2321	int
2322	vc_display_lzss_icon(uint32_t dst_x, uint32_t dst_y,
2323	uint32_t image_width, uint32_t image_height,
2324	const uint8_t *compressed_image,
2325	uint32_t compressed_size,
2326	const uint8_t *clut)
2327	{
2328	uint32_t* image_start;
2329	uint32_t bytes_per_pixel = `4`;
2330	uint32_t bytes_per_row = vinfo.v_rowbytes;
2331
2332	vc_clean_boot_graphics();
2333
2334	image_start = (uint32_t ) (vinfo.v_baseaddr + (dst_y bytes_per_row) + (dst_x * bytes_per_pixel));
2335
2336	lzss_image_state state = {`0`, `0`, image_width, image_height, bytes_per_row, image_start, clut};
2337
2338	int rval = `0`;
2339
2340	const uint8_t *src = compressed_image;
2341	uint32_t srclen = compressed_size;
2342
2343	/ ring buffer of size N, with extra F-1 bytes to aid string comparison /
2344	uint8_t text_buf[N + F - `1`];
2345	const uint8_t *srcend = src + srclen;
2346	int i, j, k, r, c;
2347	unsigned int flags;
2348
2349	srcend = src + srclen;
2350	for (i = `0`; i < N - F; i++)
2351	text_buf[i] = `' '`;
2352	r = N - F;
2353	flags = `0`;
2354	for ( ; ; ) {
2355	if (((flags >>= `1`) & `0x100`) == `0`) {
2356	if (src < srcend) c = src++; else* break;
2357	flags = c \| `0xFF00`; / uses higher byte cleverly /
2358	} / to count eight /
2359	if (flags & `1`) {
2360	if (src < srcend) c = src++; else* break;
2361	rval = vc_decompress_lzss_next_pixel(c, &state);
2362	if (rval != `0`)
2363	return rval;
2364	text_buf[r++] = c;
2365	r &= (N - `1`);
2366	} else {
2367	if (src < srcend) i = src++; else* break;
2368	if (src < srcend) j = src++; else* break;
2369	i \|= ((j & `0xF0`) << `4`);
2370	j = (j & `0x0F`) + THRESHOLD;
2371	for (k = `0`; k <= j; k++) {
2372	c = text_buf[(i + k) & (N - `1`)];
2373	rval = vc_decompress_lzss_next_pixel(c, &state);
2374	if (rval != `0` )
2375	return rval;
2376	text_buf[r++] = c;
2377	r &= (N - `1`);
2378	}
2379	}
2380	}
2381	return `0`;
2382	}
2383
2384	void noroot_icon_test(void) {
2385	boolean_t o_vc_progress_enable = vc_progress_enable;
2386
2387	vc_progress_enable = `1`;
2388
2389	PE_display_icon( `0`, "noroot");
2390
2391	vc_progress_enable = o_vc_progress_enable;
2392	}
2393
2394
2395	void vc_display_icon( vc_progress_element * desc,
2396	const unsigned char * data )
2397	{
2398	int x, y, width, height;
2399
2400	if( vc_progress_enable && vc_clut) {
2401
2402	vc_clean_boot_graphics();
2403
2404	width = desc->width;
2405	height = desc->height;
2406	x = desc->dx;
2407	y = desc->dy;
2408	if( `1` & desc->flags) {
2409	x += ((vinfo.v_width - width) / `2`);
2410	y += ((vinfo.v_height - height) / `2`);
2411	}
2412	vc_blit_rect( x, y, `0`, width, height, width, `0`, data, NULL, kDataIndexed );
2413	}
2414	}
2415
2416	void
2417	vc_progress_initialize( vc_progress_element * desc,
2418	const unsigned char * data1x,
2419	const unsigned char * data2x,
2420	const unsigned char * data3x,
2421	const unsigned char * clut )
2422	{
2423	uint64_t abstime;
2424
2425	if( (!clut) \|\| (!desc) \|\| (!data1x))
2426	return;
2427	vc_clut = clut;
2428	vc_clut8 = clut;
2429
2430	vc_progress = desc;
2431	vc_progress_data[`0`] = data1x;
2432	vc_progress_data[`1`] = data2x;
2433	vc_progress_data[`2`] = data3x;
2434	if( `2` & vc_progress->flags)
2435	vc_progress_alpha = data1x
2436	+ vc_progress->count * vc_progress->width * vc_progress->height;
2437	else
2438	vc_progress_alpha = NULL;
2439
2440	thread_call_setup(&vc_progress_call, vc_progress_task, NULL);
2441	clock_interval_to_absolutetime_interval(vc_progress->time, `1000` * `1000`, &abstime);
2442	vc_progress_interval = (uint32_t)abstime;
2443
2444	#if !CONFIG_EMBEDDED
2445	thread_call_setup(&vc_progressmeter_call, vc_progressmeter_task, NULL);
2446	clock_interval_to_absolutetime_interval(`1000` / `8`, `1000` * `1000`, &abstime);
2447	vc_progressmeter_interval = (uint32_t)abstime;
2448	#endif /* !CONFIG_EMBEDDED */
2449
2450	}
2451
2452	void
2453	vc_progress_set(boolean_t enable, uint32_t vc_delay)
2454	{
2455	spl_t s;
2456	void *saveBuf = NULL;
2457	vm_size_t saveLen = `0`;
2458	unsigned int count;
2459	unsigned int index;
2460	unsigned char pdata8;
2461	unsigned short pdata16;
2462	unsigned short * buf16;
2463	unsigned int pdata32;
2464	unsigned int * buf32;
2465
2466	#if !CONFIG_EMBEDDED
2467
2468	if (kBootArgsFlagBlack & ((boot_args ) PE_state.bootArgs)->flags) return*;
2469
2470	if (`1` & vc_progress_withmeter)
2471	{
2472	if (enable) internal_enable_progressmeter(kProgressMeterKernel);
2473
2474	s = splhigh();
2475	simple_lock(&vc_progress_lock);
2476
2477	if( vc_progress_enable != enable) {
2478	vc_progress_enable = enable;
2479	if( enable)
2480	{
2481	vc_progressmeter_count = `0`;
2482	clock_interval_to_deadline(vc_delay,
2483	`1000` * `1000` * `1000` /second scale/,
2484	&vc_progressmeter_deadline);
2485	thread_call_enter_delayed(&vc_progressmeter_call, vc_progressmeter_deadline);
2486	}
2487	else thread_call_cancel(&vc_progressmeter_call);
2488	}
2489
2490	simple_unlock(&vc_progress_lock);
2491	splx(s);
2492
2493	if (!enable) internal_enable_progressmeter(kProgressMeterOff);
2494	return;
2495	}
2496
2497	#endif /* !CONFIG_EMBEDDED */
2498
2499	if(!vc_progress) return;
2500
2501	if( enable) {
2502	saveLen = (vc_progress->width * vc_uiscale) * (vc_progress->height * vc_uiscale) * ((vinfo.v_depth + `7`) / `8`);
2503	saveBuf = kalloc( saveLen );
2504
2505	switch( vinfo.v_depth) {
2506	case `8` :
2507	for( count = `0`; count < `256`; count++) {
2508	vc_revclut8[count] = vc_clut[`0x01` * `3`];
2509	pdata8 = (vc_clut[`0x01` * `3`] * count + `0x0ff`) >> `8`;
2510	for( index = `0`; index < `256`; index++) {
2511	if( (pdata8 == vc_clut[index * `3` + `0`]) &&
2512	(pdata8 == vc_clut[index * `3` + `1`]) &&
2513	(pdata8 == vc_clut[index * `3` + `2`])) {
2514	vc_revclut8[count] = index;
2515	break;
2516	}
2517	}
2518	}
2519	memset( saveBuf, `0x01`, saveLen );
2520	break;
2521
2522	case `16` :
2523	buf16 = (unsigned short *) saveBuf;
2524	pdata16 = ((vc_clut[`0x01` * `3` + `0`] & CLUT_MASK_R) CLUT_SHIFT_R)
2525	\| ((vc_clut[`0x01` * `3` + `0`] & CLUT_MASK_G) CLUT_SHIFT_G)
2526	\| ((vc_clut[`0x01` * `3` + `0`] & CLUT_MASK_B) CLUT_SHIFT_B);
2527	for( count = `0`; count < saveLen / `2`; count++)
2528	buf16[count] = pdata16;
2529	break;
2530
2531	case `32` :
2532	buf32 = (unsigned int *) saveBuf;
2533	pdata32 = ((vc_clut[`0x01` * `3` + `0`] & `0xff`) << `16`)
2534	\| ((vc_clut[`0x01` * `3` + `1`] & `0xff`) << `8`)
2535	\| ((vc_clut[`0x01` * `3` + `2`] & `0xff`) << `0`);
2536	for( count = `0`; count < saveLen / `4`; count++)
2537	buf32[count] = pdata32;
2538	break;
2539	}
2540	}
2541
2542	s = splhigh();
2543	simple_lock(&vc_progress_lock);
2544
2545	if( vc_progress_enable != enable) {
2546	vc_progress_enable = enable;
2547	if( enable) {
2548	vc_needsave = TRUE;
2549	vc_saveunder = saveBuf;
2550	vc_saveunder_len = saveLen;
2551	saveBuf = NULL;
2552	saveLen = `0`;
2553	vc_progress_count = `0`;
2554	vc_progress_angle = `0`;
2555
2556	clock_interval_to_deadline(vc_delay,
2557	`1000` * `1000` * `1000` /second scale/,
2558	&vc_progress_deadline);
2559	thread_call_enter_delayed(&vc_progress_call, vc_progress_deadline);
2560
2561	} else {
2562	if( vc_saveunder) {
2563	saveBuf = vc_saveunder;
2564	saveLen = vc_saveunder_len;
2565	vc_saveunder = NULL;
2566	vc_saveunder_len = `0`;
2567	}
2568
2569	thread_call_cancel(&vc_progress_call);
2570	}
2571	}
2572
2573	simple_unlock(&vc_progress_lock);
2574	splx(s);
2575
2576	if( saveBuf)
2577	kfree( saveBuf, saveLen );
2578	}
2579
2580	#if !CONFIG_EMBEDDED
2581
2582	static uint32_t vc_progressmeter_range(uint32_t pos)
2583	{
2584	uint32_t ret;
2585
2586	if (pos > kProgressMeterEnd) pos = kProgressMeterEnd;
2587	ret = vc_progress_meter_start
2588	+ ((pos * (vc_progress_meter_end - vc_progress_meter_start)) / kProgressMeterEnd);
2589
2590	return (ret);
2591	}
2592
2593	static void
2594	vc_progressmeter_task(__unused void arg0, __unused void* *arg)
2595	{
2596	spl_t s;
2597	uint64_t interval;
2598
2599	s = splhigh();
2600	simple_lock(&vc_progress_lock);
2601	if (vc_progressmeter_enable)
2602	{
2603	uint32_t pos = (vc_progressmeter_count >> `13`);
2604	internal_set_progressmeter(vc_progressmeter_range(pos));
2605	if (pos < kProgressMeterEnd)
2606	{
2607	static uint16_t incr[`8`] = { `10000`, `10000`, `8192`, `4096`, `2048`, `384`, `384`, `64` };
2608	vc_progressmeter_count += incr[(pos * `8`) / kProgressMeterEnd];
2609
2610	interval = vc_progressmeter_interval;
2611	interval = ((interval * `256`) / vc_progressmeter_diskspeed);
2612
2613	clock_deadline_for_periodic_event(interval, mach_absolute_time(), &vc_progressmeter_deadline);
2614	thread_call_enter_delayed(&vc_progressmeter_call, vc_progressmeter_deadline);
2615	}
2616	}
2617	simple_unlock(&vc_progress_lock);
2618	splx(s);
2619	}
2620
2621	void vc_progress_setdiskspeed(uint32_t speed)
2622	{
2623	vc_progressmeter_diskspeed = speed;
2624	}
2625
2626	#endif /* !CONFIG_EMBEDDED */
2627
2628	static void
2629	vc_progress_task(__unused void arg0, __unused void* *arg)
2630	{
2631	spl_t s;
2632	int x, y, width, height;
2633	uint64_t x_pos, y_pos;
2634	const unsigned char * data;
2635
2636	s = splhigh();
2637	simple_lock(&vc_progress_lock);
2638
2639	if( vc_progress_enable) do {
2640
2641	vc_progress_count++;
2642	if( vc_progress_count >= vc_progress->count) {
2643	vc_progress_count = `0`;
2644	vc_progress_angle++;
2645	}
2646
2647	width = (vc_progress->width * vc_uiscale);
2648	height = (vc_progress->height * vc_uiscale);
2649	data = vc_progress_data[vc_uiscale - `1`];
2650	if (!data) break;
2651
2652	if (kVCUsePosition & vc_progress_options.options) {
2653	/ Rotation: 0:normal, 1:right 90, 2:left 180, 3:left 90 /
2654	switch (`3` & vinfo.v_rotate) {
2655	case `0`:
2656	x_pos = vc_progress_options.x_pos;
2657	y_pos = vc_progress_options.y_pos;
2658	break;
2659	case `2`:
2660	x_pos = `0xFFFFFFFF` - vc_progress_options.x_pos;
2661	y_pos = `0xFFFFFFFF` - vc_progress_options.y_pos;
2662	break;
2663	case `1`:
2664	x_pos = `0xFFFFFFFF` - vc_progress_options.y_pos;
2665	y_pos = vc_progress_options.x_pos;
2666	break;
2667	case `3`:
2668	x_pos = vc_progress_options.y_pos;
2669	y_pos = `0xFFFFFFFF` - vc_progress_options.x_pos;
2670	break;
2671	}
2672	x = (uint32_t)((x_pos * (uint64_t) vinfo.v_width) / `0xFFFFFFFFULL`);
2673	y = (uint32_t)((y_pos * (uint64_t) vinfo.v_height) / `0xFFFFFFFFULL`);
2674	x -= (width / `2`);
2675	y -= (height / `2`);
2676	} else {
2677	x = (vc_progress->dx * vc_uiscale);
2678	y = (vc_progress->dy * vc_uiscale);
2679	if( `1` & vc_progress->flags) {
2680	x += ((vinfo.v_width - width) / `2`);
2681	y += ((vinfo.v_height - height) / `2`);
2682	}
2683	}
2684
2685	if ((x + width) > (int)vinfo.v_width) break;
2686	if ((y + height) > (int)vinfo.v_height) break;
2687
2688	data += vc_progress_count * width * height;
2689
2690	vc_blit_rect( x, y, `0`,
2691	width, height, width, width,
2692	data, vc_saveunder,
2693	kDataAlpha
2694	\| (vc_progress_angle & kDataRotate)
2695	\| (vc_needsave ? kSave : `0`) );
2696	vc_needsave = FALSE;
2697
2698	clock_deadline_for_periodic_event(vc_progress_interval, mach_absolute_time(), &vc_progress_deadline);
2699	thread_call_enter_delayed(&vc_progress_call, vc_progress_deadline);
2700	}
2701	while (FALSE);
2702	simple_unlock(&vc_progress_lock);
2703	splx(s);
2704	}
2705
2706	/*
2707	* Generic Console (Front-End): Master Control
2708	* -------------------------------------------
2709	*/
2710
2711	#if defined (__i386__) \|\| defined (__x86_64__)
2712	#include <pexpert/i386/boot.h>
2713	#endif
2714
2715	static boolean_t gc_acquired = FALSE;
2716	static boolean_t gc_graphics_boot = FALSE;
2717	static boolean_t gc_desire_text = FALSE;
2718	static boolean_t gc_paused_progress;
2719
2720	static vm_offset_t lastVideoVirt = `0`;
2721	static vm_size_t lastVideoMapSize = `0`;
2722	static boolean_t lastVideoMapKmap = FALSE;
2723
2724	static void
2725	gc_pause( boolean_t pause, boolean_t graphics_now )
2726	{
2727	spl_t s;
2728
2729	s = splhigh( );
2730	VCPUTC_LOCK_LOCK( );
2731
2732	disableConsoleOutput = (pause && !console_is_serial());
2733	gc_enabled = (!pause && !graphics_now);
2734
2735	VCPUTC_LOCK_UNLOCK( );
2736
2737	simple_lock(&vc_progress_lock);
2738
2739	if (pause)
2740	{
2741	gc_paused_progress = vc_progress_enable;
2742	vc_progress_enable = FALSE;
2743	}
2744	else vc_progress_enable = gc_paused_progress;
2745
2746	if (vc_progress_enable)
2747	{
2748	#if !CONFIG_EMBEDDED
2749	if (`1` & vc_progress_withmeter) thread_call_enter_delayed(&vc_progressmeter_call, vc_progressmeter_deadline);
2750	else
2751	#endif /* !CONFIG_EMBEDDED */
2752	thread_call_enter_delayed(&vc_progress_call, vc_progress_deadline);
2753	}
2754
2755	simple_unlock(&vc_progress_lock);
2756	splx(s);
2757	}
2758
2759	static void
2760	vc_initialize(__unused struct vc_info * vinfo_p)
2761	{
2762	#ifdef __arm__
2763	unsigned long cnt, data16, data32;
2764
2765	if (vinfo.v_depth == `16`) {
2766	for (cnt = `0`; cnt < `8`; cnt++) {
2767	data32 = vc_colors[cnt][`2`];
2768	data16 = (data32 & `0x0000F8`) << `8`;
2769	data16 \|= (data32 & `0x00FC00`) >> `5`;
2770	data16 \|= (data32 & `0xF80000`) >> `19`;
2771	data16 \|= data16 << `16`;
2772	vc_colors[cnt][`1`] = data16;
2773	}
2774	}
2775	#endif
2776
2777	vinfo.v_rows = vinfo.v_height / ISO_CHAR_HEIGHT;
2778	vinfo.v_columns = vinfo.v_width / ISO_CHAR_WIDTH;
2779	vinfo.v_rowscanbytes = ((vinfo.v_depth + `7`) / `8`) * vinfo.v_width;
2780	vc_uiscale = vinfo.v_scale;
2781	if (vc_uiscale > kMaxProgressData) vc_uiscale = kMaxProgressData;
2782	else if (!vc_uiscale) vc_uiscale = `1`;
2783	}
2784
2785	void
2786	initialize_screen(PE_Video * boot_vinfo, unsigned int op)
2787	{
2788	unsigned int newMapSize = `0`;
2789	vm_offset_t newVideoVirt = `0`;
2790	boolean_t graphics_now;
2791	uint32_t delay;
2792
2793	if ( boot_vinfo )
2794	{
2795	struct vc_info new_vinfo = vinfo;
2796	boolean_t makeMapping = FALSE;
2797
2798	/*
2799	* Copy parameters
2800	*/
2801	if (kPEBaseAddressChange != op)
2802	{
2803	new_vinfo.v_width = (unsigned int)boot_vinfo->v_width;
2804	new_vinfo.v_height = (unsigned int)boot_vinfo->v_height;
2805	new_vinfo.v_depth = (unsigned int)boot_vinfo->v_depth;
2806	new_vinfo.v_rowbytes = (unsigned int)boot_vinfo->v_rowBytes;
2807	if (kernel_map == VM_MAP_NULL) {
2808	// only booter supplies HW rotation
2809	new_vinfo.v_rotate = (unsigned int)boot_vinfo->v_rotate;
2810	}
2811	#if defined(__i386__) \|\| defined(__x86_64__)
2812	new_vinfo.v_type = (unsigned int)boot_vinfo->v_display;
2813	#else
2814	new_vinfo.v_type = `0`;
2815	#endif
2816	unsigned int scale = (unsigned int)boot_vinfo->v_scale;
2817	if (scale == kPEScaleFactor1x )
2818	new_vinfo.v_scale = kPEScaleFactor1x;
2819	else if (scale == kPEScaleFactor2x)
2820	new_vinfo.v_scale = kPEScaleFactor2x;
2821	else / Scale factor not set, default to 1x /
2822	new_vinfo.v_scale = kPEScaleFactor1x;
2823	}
2824	new_vinfo.v_name[`0`] = `0`;
2825	new_vinfo.v_physaddr = `0`;
2826
2827	/*
2828	* Check if we are have to map the framebuffer
2829	* If VM is up, we are given a virtual address, unless b0 is set to indicate physical.
2830	*/
2831	newVideoVirt = boot_vinfo->v_baseAddr;
2832	makeMapping = (kernel_map == VM_MAP_NULL) \|\| (`0` != (`1` & newVideoVirt));
2833	if (makeMapping)
2834	{
2835	newVideoVirt = `0`;
2836	new_vinfo.v_physaddr = boot_vinfo->v_baseAddr & ~`3UL`; / Get the physical address /
2837	#ifndef __LP64__
2838	new_vinfo.v_physaddr \|= (((uint64_t) boot_vinfo->v_baseAddrHigh) << `32`);
2839	#endif
2840	kprintf("initialize_screen: b=%08llX, w=%08X, h=%08X, r=%08X, d=%08X\n", / (BRINGUP) /
2841	new_vinfo.v_physaddr, new_vinfo.v_width, new_vinfo.v_height, new_vinfo.v_rowbytes, new_vinfo.v_type); / (BRINGUP) /
2842	}
2843
2844	if (!newVideoVirt && !new_vinfo.v_physaddr) / Check to see if we have a framebuffer /
2845	{
2846	kprintf("initialize_screen: No video - forcing serial mode\n"); / (BRINGUP) /
2847	new_vinfo.v_depth = `0`; / vc routines are nop /
2848	(void)switch_to_serial_console(); / Switch into serial mode /
2849	gc_graphics_boot = FALSE; / Say we are not in graphics mode /
2850	disableConsoleOutput = FALSE; / Allow printfs to happen /
2851	gc_acquired = TRUE;
2852	}
2853	else
2854	{
2855	if (makeMapping)
2856	{
2857	unsigned int flags = VM_WIMG_IO;
2858	if (boot_vinfo->v_length != `0`)
2859	newMapSize = (unsigned int) round_page(boot_vinfo->v_length);
2860	else
2861	newMapSize = (unsigned int) round_page(new_vinfo.v_height * new_vinfo.v_rowbytes); / Remember size /
2862	newVideoVirt = io_map_spec((vm_map_offset_t)new_vinfo.v_physaddr, newMapSize, flags); / Allocate address space for framebuffer /
2863	}
2864	new_vinfo.v_baseaddr = newVideoVirt + boot_vinfo->v_offset; / Set the new framebuffer address /
2865	}
2866
2867	#if defined(__x86_64__)
2868	// Adjust the video buffer pointer to point to where it is in high virtual (above the hole)
2869	new_vinfo.v_baseaddr \|= (VM_MIN_KERNEL_ADDRESS & ~LOW_4GB_MASK);
2870	#endif
2871
2872	/ Update the vinfo structure atomically with respect to the vc_progress task if running /
2873	if (vc_progress)
2874	{
2875	simple_lock(&vc_progress_lock);
2876	vinfo = new_vinfo;
2877	simple_unlock(&vc_progress_lock);
2878	}
2879	else
2880	{
2881	vinfo = new_vinfo;
2882	}
2883
2884	// If we changed the virtual address, remove the old mapping
2885	if (newVideoVirt != `0`)
2886	{
2887	if (lastVideoVirt && lastVideoMapSize) / Was the framebuffer mapped before? /
2888	{
2889	/ XXX why only !4K? /
2890	if (!TEST_PAGE_SIZE_4K && lastVideoMapSize)
2891	{
2892	pmap_remove(kernel_pmap, trunc_page_64(lastVideoVirt),
2893	round_page_64(lastVideoVirt + lastVideoMapSize)); / Toss mappings /
2894	}
2895	/ Was this not a special pre-VM mapping? /
2896	if (lastVideoMapKmap)
2897	{
2898	kmem_free(kernel_map, lastVideoVirt, lastVideoMapSize); / Toss kernel addresses /
2899	}
2900	}
2901	lastVideoMapKmap = (NULL != kernel_map); / Remember how mapped /
2902	lastVideoMapSize = newMapSize; / Remember the size /
2903	lastVideoVirt = newVideoVirt; / Remember the virtual framebuffer address /
2904	}
2905
2906	if (kPEBaseAddressChange != op)
2907	{
2908	// Graphics mode setup by the booter.
2909
2910	gc_ops.initialize = vc_initialize;
2911	gc_ops.enable = vc_enable;
2912	gc_ops.paint_char = vc_paint_char;
2913	gc_ops.scroll_down = vc_scroll_down;
2914	gc_ops.scroll_up = vc_scroll_up;
2915	gc_ops.clear_screen = vc_clear_screen;
2916	gc_ops.hide_cursor = vc_reverse_cursor;
2917	gc_ops.show_cursor = vc_reverse_cursor;
2918	gc_ops.update_color = vc_update_color;
2919	gc_initialize(&vinfo);
2920	}
2921	}
2922
2923	graphics_now = gc_graphics_boot && !gc_desire_text;
2924	switch ( op )
2925	{
2926	case kPEGraphicsMode:
2927	gc_graphics_boot = TRUE;
2928	gc_desire_text = FALSE;
2929	break;
2930
2931	case kPETextMode:
2932	gc_graphics_boot = FALSE;
2933	break;
2934
2935	case kPEAcquireScreen:
2936	if ( gc_acquired ) break;
2937
2938	vc_progress_options = vc_user_options;
2939	bzero(&vc_user_options, sizeof(vc_user_options));
2940
2941	if (kVCAcquireImmediate & vc_progress_options.options) delay = `0`;
2942	else if (kVCDarkReboot & vc_progress_options.options) delay = `120`;
2943	else delay = vc_acquire_delay;
2944
2945	if (kVCDarkBackground & vc_progress_options.options) vc_progress_white = TRUE;
2946	else if (kVCLightBackground & vc_progress_options.options) vc_progress_white = FALSE;
2947
2948	#if !defined(XNU_TARGET_OS_BRIDGE)
2949	vc_progress_set( graphics_now, delay );
2950	#endif /* !defined(XNU_TARGET_OS_BRIDGE) */
2951	gc_enable( !graphics_now );
2952	gc_acquired = TRUE;
2953	gc_desire_text = FALSE;
2954	break;
2955
2956	case kPEDisableScreen:
2957	if (gc_acquired)
2958	{
2959	gc_pause( TRUE, graphics_now );
2960	}
2961	break;
2962
2963	case kPEEnableScreen:
2964	if (gc_acquired)
2965	{
2966	gc_pause( FALSE, graphics_now );
2967	}
2968	break;
2969
2970	case kPETextScreen:
2971	if ( console_is_serial() ) break;
2972
2973	if ( gc_acquired == FALSE )
2974	{
2975	gc_desire_text = TRUE;
2976	break;
2977	}
2978	if ( gc_graphics_boot == FALSE ) break;
2979
2980	vc_progress_set( FALSE, `0` );
2981	#if !CONFIG_EMBEDDED
2982	vc_enable_progressmeter( FALSE );
2983	#endif
2984	gc_enable( TRUE );
2985	break;
2986
2987	case kPEReleaseScreen:
2988	gc_acquired = FALSE;
2989	gc_desire_text = FALSE;
2990	gc_enable( FALSE );
2991	if ( gc_graphics_boot == FALSE ) break;
2992
2993	vc_progress_set( FALSE, `0` );
2994	vc_acquire_delay = kProgressReacquireDelay;
2995	vc_progress_white = TRUE;
2996	#if !CONFIG_EMBEDDED
2997	vc_enable_progressmeter(FALSE);
2998	vc_progress_withmeter &= ~`1`;
2999	#endif
3000	vc_clut8 = NULL;
3001	break;
3002
3003
3004	#if !CONFIG_EMBEDDED
3005	case kPERefreshBootGraphics:
3006	{
3007	spl_t s;
3008	boolean_t save;
3009
3010	if (kBootArgsFlagBlack & ((boot_args ) PE_state.bootArgs)->flags) break*;
3011
3012	save = vc_progress_white;
3013	vc_progress_white = (`0` != (kBootArgsFlagBlackBg & ((boot_args *) PE_state.bootArgs)->flags));
3014
3015	internal_enable_progressmeter(kProgressMeterKernel);
3016
3017	s = splhigh();
3018	simple_lock(&vc_progress_lock);
3019
3020	vc_progressmeter_drawn = `0`;
3021	internal_set_progressmeter(vc_progressmeter_range(vc_progressmeter_count >> `13`));
3022
3023	simple_unlock(&vc_progress_lock);
3024	splx(s);
3025
3026	internal_enable_progressmeter(kProgressMeterOff);
3027	vc_progress_white = save;
3028	}
3029	#endif
3030	}
3031	}
3032
3033	void vcattach(void); / XXX gcc 4 warning cleanup /
3034
3035	void
3036	vcattach(void)
3037	{
3038	vm_initialized = TRUE;
3039
3040	#if !CONFIG_EMBEDDED
3041	const boot_args * bootargs = (typeof(bootargs)) PE_state.bootArgs;
3042
3043	vc_progress_white = (`0` != ((kBootArgsFlagBlackBg \| kBootArgsFlagLoginUI)
3044	& bootargs->flags));
3045	PE_parse_boot_argn("meter", &vc_progress_withmeter, sizeof(vc_progress_withmeter));
3046
3047	if (kBootArgsFlagInstallUI & bootargs->flags)
3048	{
3049	vc_progress_meter_start = (bootargs->bootProgressMeterStart * kProgressMeterMax) / `65535`;
3050	vc_progress_meter_end = (bootargs->bootProgressMeterEnd * kProgressMeterMax) / `65535`;
3051	}
3052	else
3053	{
3054	vc_progress_meter_start = `0`;
3055	vc_progress_meter_end = kProgressMeterMax;
3056	}
3057	#endif
3058	simple_lock_init(&vc_progress_lock, `0`);
3059
3060	if ( gc_graphics_boot == FALSE )
3061	{
3062	long index;
3063
3064	if ( gc_acquired )
3065	{
3066	initialize_screen(NULL, kPEReleaseScreen);
3067	}
3068
3069	initialize_screen(NULL, kPEAcquireScreen);
3070
3071	for ( index = `0` ; index < msgbufp->msg_bufx ; index++ )
3072	{
3073	if (msgbufp->msg_bufc[index] == `'\0'`) {
3074	continue;
3075	}
3076
3077	vcputc( `0`, `0`, msgbufp->msg_bufc[index] );
3078
3079	if ( msgbufp->msg_bufc[index] == `'\n'` )
3080	{
3081	vcputc( `0`, `0`,`'\r'` );
3082	}
3083	}
3084	}
3085	}
3086
3087	#if !CONFIG_EMBEDDED
3088
3089	// redraw progress meter between pixels x1, x2, position at x3
3090	static void
3091	vc_draw_progress_meter(unsigned int flags, int x1, int x2, int x3)
3092	{
3093	const unsigned char * data;
3094	int x, w;
3095	int ox, oy;
3096	int endCapPos;
3097	int onoff;
3098	// 1 rounded fill, 0 square end
3099	int style = (`0` == (`2` & vc_progress_withmeter));
3100
3101	ox = ((vinfo.v_width - (kProgressBarWidth * vc_uiscale)) / `2`);
3102	oy = vinfo.v_height - (vinfo.v_height / `3`) - ((kProgressBarHeight * vc_uiscale) / `2`);
3103
3104	if (kDataBack == flags)
3105	{
3106	// restore back bits
3107	vc_blit_rect(ox + x1, oy, x1,
3108	x2, (kProgressBarHeight * vc_uiscale), `0`, (kProgressBarWidth * vc_uiscale),
3109	NULL, vc_progressmeter_backbuffer, flags);
3110	return;
3111	}
3112
3113	for (x = x1; x < x2; x += w)
3114	{
3115	onoff = (x < x3);
3116	endCapPos = ((style && onoff) ? x3 : (kProgressBarWidth * vc_uiscale));
3117	if (x < (kProgressBarCapWidth * vc_uiscale))
3118	{
3119	if (x2 < (kProgressBarCapWidth * vc_uiscale))
3120	w = x2 - x;
3121	else
3122	w = (kProgressBarCapWidth * vc_uiscale) - x;
3123	data = progressmeter_leftcap[vc_uiscale >= `2`][onoff];
3124	data += x;
3125	vc_blit_rect(ox + x, oy, x, w,
3126	(kProgressBarHeight * vc_uiscale),
3127	(kProgressBarCapWidth * vc_uiscale),
3128	(kProgressBarWidth * vc_uiscale),
3129	data, vc_progressmeter_backbuffer, flags);
3130	}
3131	else if (x < (endCapPos - (kProgressBarCapWidth * vc_uiscale)))
3132	{
3133	if (x2 < (endCapPos - (kProgressBarCapWidth * vc_uiscale)))
3134	w = x2 - x;
3135	else
3136	w = (endCapPos - (kProgressBarCapWidth * vc_uiscale)) - x;
3137	data = progressmeter_middle[vc_uiscale >= `2`][onoff];
3138	vc_blit_rect(ox + x, oy, x, w,
3139	(kProgressBarHeight * vc_uiscale),
3140	`1`,
3141	(kProgressBarWidth * vc_uiscale),
3142	data, vc_progressmeter_backbuffer, flags);
3143	}
3144	else
3145	{
3146	w = endCapPos - x;
3147	data = progressmeter_rightcap[vc_uiscale >= `2`][onoff];
3148	data += x - (endCapPos - (kProgressBarCapWidth * vc_uiscale));
3149	vc_blit_rect(ox + x, oy, x, w,
3150	(kProgressBarHeight * vc_uiscale),
3151	(kProgressBarCapWidth * vc_uiscale),
3152	(kProgressBarWidth * vc_uiscale),
3153	data, vc_progressmeter_backbuffer, flags);
3154	}
3155	}
3156	}
3157
3158	extern void IORecordProgressBackbuffer(void * buffer, size_t size, uint32_t theme);
3159
3160	static void
3161	internal_enable_progressmeter(int new_value)
3162	{
3163	spl_t s;
3164	void * new_buffer;
3165	boolean_t stashBackbuffer;
3166
3167	stashBackbuffer = FALSE;
3168	new_buffer = NULL;
3169	if (new_value)
3170	{
3171	new_buffer = kalloc((kProgressBarWidth * vc_uiscale)
3172	* (kProgressBarHeight * vc_uiscale) * sizeof(int));
3173	}
3174
3175	s = splhigh();
3176	simple_lock(&vc_progress_lock);
3177
3178	if (kProgressMeterUser == new_value)
3179	{
3180	if (gc_enabled \|\| !gc_acquired \|\| !gc_graphics_boot
3181	\|\| (kProgressMeterKernel == vc_progressmeter_enable)) new_value = vc_progressmeter_enable;
3182	}
3183
3184	if (new_value != vc_progressmeter_enable)
3185	{
3186	if (new_value)
3187	{
3188	if (kProgressMeterOff == vc_progressmeter_enable)
3189	{
3190	vc_progressmeter_backbuffer = new_buffer;
3191	vc_draw_progress_meter(kDataAlpha \| kSave, `0`, (kProgressBarWidth * vc_uiscale), `0`);
3192	new_buffer = NULL;
3193	vc_progressmeter_drawn = `0`;
3194	}
3195	vc_progressmeter_enable = new_value;
3196	}
3197	else if (vc_progressmeter_backbuffer)
3198	{
3199	if (kProgressMeterUser == vc_progressmeter_enable)
3200	{
3201	vc_draw_progress_meter(kDataBack, `0`, (kProgressBarWidth * vc_uiscale), vc_progressmeter_drawn);
3202	}
3203	else stashBackbuffer = TRUE;
3204	new_buffer = vc_progressmeter_backbuffer;
3205	vc_progressmeter_backbuffer = NULL;
3206	vc_progressmeter_enable = FALSE;
3207	}
3208	}
3209
3210	simple_unlock(&vc_progress_lock);
3211	splx(s);
3212
3213	if (new_buffer)
3214	{
3215	if (stashBackbuffer) IORecordProgressBackbuffer(new_buffer,
3216	(kProgressBarWidth * vc_uiscale)
3217	* (kProgressBarHeight * vc_uiscale)
3218	* sizeof(int),
3219	vc_progress_white);
3220	kfree(new_buffer, (kProgressBarWidth * vc_uiscale)
3221	* (kProgressBarHeight * vc_uiscale) * sizeof(int));
3222	}
3223	}
3224
3225	static void
3226	internal_set_progressmeter(int new_value)
3227	{
3228	int x1, x3;
3229	int capRedraw;
3230	// 1 rounded fill, 0 square end
3231	int style = (`0` == (`2` & vc_progress_withmeter));
3232
3233	if ((new_value < `0`) \|\| (new_value > kProgressMeterMax)) return;
3234
3235	if (vc_progressmeter_enable)
3236	{
3237	vc_progressmeter_value = new_value;
3238
3239	capRedraw = (style ? (kProgressBarCapWidth * vc_uiscale) : `0`);
3240	x3 = (((kProgressBarWidth * vc_uiscale) - `2` * capRedraw) * vc_progressmeter_value) / kProgressMeterMax;
3241	x3 += (`2` * capRedraw);
3242
3243	if (x3 > vc_progressmeter_drawn)
3244	{
3245	x1 = capRedraw;
3246	if (x1 > vc_progressmeter_drawn) x1 = vc_progressmeter_drawn;
3247	vc_draw_progress_meter(kDataAlpha, vc_progressmeter_drawn - x1, x3, x3);
3248	}
3249	else
3250	{
3251	vc_draw_progress_meter(kDataAlpha, x3 - capRedraw, vc_progressmeter_drawn, x3);
3252	}
3253	vc_progressmeter_drawn = x3;
3254	}
3255	}
3256
3257	void
3258	vc_enable_progressmeter(int new_value)
3259	{
3260	if (kProgressMeterKernel == vc_progressmeter_enable)
3261	{
3262	vc_progressmeter_hold = new_value;
3263	}
3264	else
3265	{
3266	internal_enable_progressmeter(new_value ? kProgressMeterUser : kProgressMeterOff);
3267	}
3268	}
3269
3270	void
3271	vc_set_progressmeter(int new_value)
3272	{
3273	spl_t s;
3274
3275	s = splhigh();
3276	simple_lock(&vc_progress_lock);
3277
3278	if (vc_progressmeter_enable && (kProgressMeterKernel != vc_progressmeter_enable))
3279	{
3280	internal_set_progressmeter((new_value * kProgressMeterMax) / `100`);
3281	}
3282
3283	simple_unlock(&vc_progress_lock);
3284	splx(s);
3285	}
3286
3287	#endif /* !CONFIG_EMBEDDED */
3288
3289
3290
3291

Browse the source code of codebrowser/osfmk/console/video_console.c