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[/] [or1k/] [trunk/] [rc203soc/] [sw/] [uClinux/] [arch/] [m68k/] [console/] [fbcon.c] - Rev 1623
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/* * linux/arch/m68k/console/fbcon.c -- Low level frame buffer based console * driver * * Copyright (C) 1995 Geert Uytterhoeven * * * This file is based on the original Amiga console driver (amicon.c): * * Copyright (C) 1993 Hamish Macdonald * Greg Harp * Copyright (C) 1994 David Carter [carter@compsci.bristol.ac.uk] * * with work by William Rucklidge (wjr@cs.cornell.edu) * Geert Uytterhoeven * Jes Sorensen (jds@kom.auc.dk) * Martin Apel * * and on the original Atari console driver (atacon.c): * * Copyright (C) 1993 Bjoern Brauel * Roman Hodek * * with work by Guenther Kelleter * Martin Schaller * Andreas Schwab * * * This file is subject to the terms and conditions of the GNU General Public * License. See the file COPYING in the main directory of this archive * for more details. */ /* * To do: * - Implement 16 plane mode. * - Add support for 16/24/32 bit packed pixels * - Hardware cursor */ #include <linux/types.h> #include <linux/fs.h> #include <linux/kernel.h> #include <linux/tty.h> #include <linux/console.h> #include <linux/string.h> #include <linux/config.h> #include <linux/kd.h> #include <linux/malloc.h> #include <asm/bootinfo.h> #include <asm/irq.h> #ifdef CONFIG_AMIGA #include <asm/amigahw.h> #include <asm/amigaints.h> #endif /* CONFIG_AMIGA */ #ifdef CONFIG_ATARI #include <asm/atariints.h> #endif #ifdef CONFIG_FB_CYBER #include "../amiga/s3blit.h" #endif /* CONFIG_FB_CYBER */ #include <linux/fb.h> #include <asm/font.h> #include <asm/machdep.h> #include <asm/system.h> #include "../../../drivers/char/vt_kern.h" /* vt_cons and vc_resize_con() */ /* Import console_blanked from console.c */ extern int console_blanked; /* * The following symbols select what modes are supported. They should * be settable by the user ("make config") later. */ /* Clear all definitions */ #undef CONFIG_FBCON_MONO #undef CONFIG_FBCON_ILBM #undef CONFIG_FBCON_PLANES #undef CONFIG_FBCON_2PLANE #undef CONFIG_FBCON_4PLANE #undef CONFIG_FBCON_8PLANE #undef CONFIG_FBCON_8PACKED #undef CONFIG_FBCON_16PACKED #undef CONFIG_FBCON_24PACKED #undef CONFIG_FBCON_32PACKED #undef CONFIG_FBCON_CYBER /* Monochrome is default */ #define CONFIG_FBCON_MONO /* Amiga support */ #ifdef CONFIG_AMIGA #ifndef CONFIG_FBCON_ILBM #define CONFIG_FBCON_ILBM #endif #ifndef CONFIG_FBCON_PLANES #define CONFIG_FBCON_PLANES #endif /* Cybervision Graphics Board */ #ifdef CONFIG_FB_CYBER #ifndef CONFIG_FBCON_CYBER #define CONFIG_FBCON_CYBER #endif #endif /* CONFIG_FB_CYBER */ #endif /* CONFIG_AMIGA */ /* Atari support */ #ifdef CONFIG_ATARI #ifndef CONFIG_FBCON_2PLANE #define CONFIG_FBCON_2PLANE #endif #ifndef CONFIG_FBCON_4PLANE #define CONFIG_FBCON_4PLANE #endif #ifndef CONFIG_FBCON_8PLANE #define CONFIG_FBCON_8PLANE #endif #ifndef CONFIG_FBCON_8PACKED #define CONFIG_FBCON_8PACKED #endif #ifndef CONFIG_FBCON_16PACKED #define CONFIG_FBCON_16PACKED #endif #endif /* CONFIG_ATARI */ /* Extra definitions to make the code more readable */ #if defined(CONFIG_FBCON_2PLANE) || defined(CONFIG_FBCON_4PLANE) || \ defined(CONFIG_FBCON_8PLANE) #define CONFIG_FBCON_IPLAN2 #else #undef CONFIG_FBCON_IPLAN2 #endif #if defined(CONFIG_FBCON_CYBER) || defined(CONFIG_FBCON_8PACKED) || \ defined(CONFIG_FBCON_16PACKED) || defined(CONFIG_FBCON_24PACKED) || \ defined(CONFIG_FBCON_32PACKED) #define CONFIG_FBCON_PACKED #else #undef CONFIG_FBCON_PACKED #endif struct fb_info *fb_info; struct display *disp; /* ++Geert: Sorry, no hardware cursor support at the moment; use Atari alike software cursor */ static int cursor_drawn = 0; #define CURSOR_DRAW_DELAY (2) /* # VBL ints between cursor state changes */ #define AMIGA_CURSOR_BLINK_RATE (20) #define ATARI_CURSOR_BLINK_RATE (42) static int vbl_cursor_cnt = 0; static int cursor_on = 0; static int cursor_blink_rate; static __inline__ int CURSOR_UNDRAWN(void) { int cursor_was_drawn; vbl_cursor_cnt = 0; cursor_was_drawn = cursor_drawn; cursor_drawn = 0; return(cursor_was_drawn); } /* * Attribute Decoding */ /* Color */ #define attr_fgcol(p,conp) \ (((conp)->vc_attr >> ((p)->inverse ? 4 : 0)) & 0x0f) #define attr_bgcol(p,conp) \ (((conp)->vc_attr >> ((p)->inverse ? 0 : 4)) & 0x0f) #define attr_bgcol_ec(p,conp) \ (((conp)->vc_video_erase_char >> ((p)->inverse ? 8 : 12)) & 0x0f) /* Monochrome */ #define attr_bold(p,conp) \ (((conp)->vc_attr & 3) == 2) #define attr_reverse(p,conp) \ (((conp)->vc_attr & 8) ^ ((p)->inverse ? 8 : 0)) #define attr_underline(p,conp) \ (((conp)->vc_attr) & 4) /* * Scroll Method */ #define SCROLL_YWRAP (0) #define SCROLL_YPAN (1) #define SCROLL_YMOVE (2) #define divides(a, b) ((!(a) || (b)%(a)) ? 0 : 1) /* * Interface used by the world */ static u_long fbcon_startup(u_long kmem_start, char **display_desc); static void fbcon_init(struct vc_data *conp); static int fbcon_deinit(struct vc_data *conp); static int fbcon_changevar(int con); static int fbcon_clear(struct vc_data *conp, int sy, int sx, int height, int width); static int fbcon_putc(struct vc_data *conp, int c, int y, int x); static int fbcon_putcs(struct vc_data *conp, const char *s, int count, int y, int x); static int fbcon_cursor(struct vc_data *conp, int mode); static int fbcon_scroll(struct vc_data *conp, int t, int b, int dir, int count); static int fbcon_bmove(struct vc_data *conp, int sy, int sx, int dy, int dx, int height, int width); static int fbcon_switch(struct vc_data *conp); static int fbcon_blank(int blank); /* * Internal routines */ static void fbcon_setup(int con, int setcol, int cls); static __inline__ void *mymemclear_small(void *s, size_t count); static __inline__ void *mymemclear(void *s, size_t count); static __inline__ void *mymemset(void *s, size_t count); static __inline__ void *mymemmove(void *d, void *s, size_t count); static __inline__ void fast_memmove(char *dst, char *src, size_t size); static __inline__ void memclear_4p_col(void *d, size_t h, u_long val, int bpr); static __inline__ void memset_even_4p(void *d, size_t count, u_long val1, u_long val2); static __inline__ void memmove_4p_col(void *d, void *s, int h, int bpr); static __inline__ u_long expand4l(u_char c); static __inline__ void expand4dl(u_char c, u_long *ret1, u_long *ret2); static __inline__ u_long dup4l(u_char c); static __inline__ void memclear_8p_col(void *d, size_t h, u_long val1, u_long val2, int bpr); static __inline__ void memset_even_8p(void *d, size_t count, u_long val1, u_long val2, u_long val3, u_long val4); static __inline__ void memmove_8p_col(void *d, void *s, int h, int bpr); static __inline__ void expand8dl(u_char c, u_long *ret1, u_long *ret2); static __inline__ void memclear_2p_col(void *d, size_t h, u_short val, int bpr); static __inline__ void memset_even_2p(void *d, size_t count, u_long val); static __inline__ void memmove_2p_col(void *d, void *s, int h, int bpr); static __inline__ u_short expand2w(u_char c); static __inline__ u_long expand2l(u_char c); static __inline__ u_short dup2w(u_char c); static __inline__ int real_y(struct display *p, int y); static void fbcon_vbl_handler(int irq, struct pt_regs *fp, void *dummy); static void fbcon_bmove_rec(struct display *p, int sy, int sx, int dy, int dx, int height, int width, u_int y_break); /* * Monochrome */ #ifdef CONFIG_FBCON_MONO static void bmove_mono(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_mono(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_mono(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_mono(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_mono(struct display *p, int x, int y); #endif /* CONFIG_FBCON_MONO */ /* * Color Interleaved Planes */ #ifdef CONFIG_FBCON_ILBM static void bmove_ilbm(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_ilbm(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_ilbm(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_ilbm(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_ilbm(struct display *p, int x, int y); #endif /* CONFIG_FBCON_ILBM */ /* * Color Planes */ #ifdef CONFIG_FBCON_PLANES static void bmove_plan(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_plan(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_plan(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_plan(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_plan(struct display *p, int x, int y); #endif /* CONFIG_FBCON_PLANES */ /* * 2 Planes (2-bytes interleave) */ #ifdef CONFIG_FBCON_2PLANE static void bmove_2_plane(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_2_plane(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_2_plane(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_2_plane(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_2_plane(struct display *display, int x, int y); #endif /* CONFIG_FBCON_2PLANE */ /* * 4 Planes (2-bytes interleave) */ #ifdef CONFIG_FBCON_4PLANE static void bmove_4_plane(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_4_plane(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_4_plane(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_4_plane(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_4_plane(struct display *p, int x, int y); #endif /* CONFIG_FBCON_4PLANE */ /* * 8 Planes (2-bytes interleave) */ #ifdef CONFIG_FBCON_8PLANE static void bmove_8_plane(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_8_plane(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_8_plane(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_8_plane(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_8_plane(struct display *display, int x, int y); #endif /* CONFIG_FBCON_8PLANE */ /* * 8 bpp Packed Pixels */ #ifdef CONFIG_FBCON_8PACKED static void bmove_8_packed(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_8_packed(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_8_packed(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_8_packed(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_8_packed(struct display *p, int x, int y); #endif /* CONFIG_FBCON_8PACKED */ /* * 16 bpp Packed Pixels */ #ifdef CONFIG_FBCON_16PACKED static void bmove_16_packed(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_16_packed(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_16_packed(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_16_packed(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_16_packed(struct display *p, int x, int y); #endif */ CONFIG_FBCON_8PACKED */ /* * Cybervision (accelerated) */ #ifdef CONFIG_FBCON_CYBER static void bmove_cyber(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_cyber(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_cyber(struct vc_data *conp, struct display *p, int c, int y, int x); static void putcs_cyber(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); static void rev_char_cyber(struct display *p, int x, int y); extern void Cyber_WaitQueue(u_short fifo); extern void Cyber_WaitBlit(void); extern void Cyber_BitBLT(u_short curx, u_short cury, u_short destx, u_short desty, u_short width, u_short height, u_short mode); extern void Cyber_RectFill(u_short x, u_short y, u_short width, u_short height, u_short mode, u_short color); extern void Cyber_MoveCursor(u_short x, u_short y); #endif /* CONFIG_FBCON_CYBER */ /* * `switch' for the Low Level Operations */ struct display_switch { void (*bmove)(struct display *p, int sy, int sx, int dy, int dx, int height, int width); void (*clear)(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); void (*putc)(struct vc_data *conp, struct display *p, int c, int y, int x); void (*putcs)(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x); void (*rev_char)(struct display *p, int x, int y); }; #ifdef CONFIG_FBCON_MONO struct display_switch dispsw_mono = { bmove_mono, clear_mono, putc_mono, putcs_mono, rev_char_mono }; #endif /* CONFIG_FBCON_MONO */ #ifdef CONFIG_FBCON_ILBM struct display_switch dispsw_ilbm = { bmove_ilbm, clear_ilbm, putc_ilbm, putcs_ilbm, rev_char_ilbm }; #endif /* CONFIG_FBCON_ILBM */ #ifdef CONFIG_FBCON_PLANES struct display_switch dispsw_plan = { bmove_plan, clear_plan, putc_plan, putcs_plan, rev_char_plan }; #endif /* CONFIG_FBCON_PLANES */ #ifdef CONFIG_FBCON_2PLANE struct display_switch dispsw_2_plane = { bmove_2_plane, clear_2_plane, putc_2_plane, putcs_2_plane, rev_char_2_plane }; #endif /* CONFIG_FBCON_2PLANE */ #ifdef CONFIG_FBCON_4PLANE struct display_switch dispsw_4_plane = { bmove_4_plane, clear_4_plane, putc_4_plane, putcs_4_plane, rev_char_4_plane }; #endif /* CONFIG_FBCON_4PLANE */ #ifdef CONFIG_FBCON_8PLANE struct display_switch dispsw_8_plane = { bmove_8_plane, clear_8_plane, putc_8_plane, putcs_8_plane, rev_char_8_plane }; #endif /* CONFIG_FBCON_8PLANE */ #ifdef CONFIG_FBCON_8PACKED struct display_switch dispsw_8_packed = { bmove_8_packed, clear_8_packed, putc_8_packed, putcs_8_packed, rev_char_8_packed }; #endif /* CONFIG_FBCON_8PACKED */ #ifdef CONFIG_FBCON_16PACKED struct display_switch dispsw_16_packed = { bmove_16_packed, clear_16_packed, putc_16_packed, putcs_16_packed, rev_char_16_packed }; #endif /* CONFIG_FBCON_16PACKED */ #ifdef CONFIG_FBCON_CYBER struct display_switch dispsw_cyber = { bmove_cyber, clear_cyber, putc_cyber, putcs_cyber, rev_char_cyber }; #endif /* CONFIG_FBCON_CYBER */ static u_long fbcon_startup(u_long kmem_start, char **display_desc) { int irqres = 0; fb_info = mach_fb_init(&kmem_start); disp = fb_info->disp; *display_desc = fb_info->modename; fb_info->changevar = &fbcon_changevar; #ifdef CONFIG_AMIGA if (MACH_IS_AMIGA) { cursor_blink_rate = AMIGA_CURSOR_BLINK_RATE; irqres = add_isr(IRQ_AMIGA_VERTB, fbcon_vbl_handler, 0, NULL, "console/cursor"); } #endif /* CONFIG_AMIGA */ #ifdef CONFIG_ATARI if (MACH_IS_ATARI) { cursor_blink_rate = ATARI_CURSOR_BLINK_RATE; irqres = add_isr(IRQ_AUTO_4, fbcon_vbl_handler, IRQ_TYPE_PRIO, NULL, "console/cursor"); } #endif /* CONFIG_ATARI */ if (!irqres) panic("fbcon_startup: Couldn't add vblank interrupt"); return(kmem_start); } static void fbcon_init(struct vc_data *conp) { int unit = conp->vc_num; if (unit) disp[unit] = disp[0]; disp[unit].conp = conp; fbcon_setup(unit, 1, 0); } static int fbcon_deinit(struct vc_data *conp) { disp[conp->vc_num].conp = 0; return(0); } static int fbcon_changevar(int con) { fbcon_setup(con, 1, 1); return(0); } static void fbcon_setup(int con, int setcol, int cls) { struct display *p = &disp[con]; struct vc_data *conp = p->conp; p->var.xoffset = p->var.yoffset = p->yscroll = 0; /* reset wrap/pan */ if (!fb_info->fontname[0] || !findsoftfont(fb_info->fontname, &p->fontwidth, &p->fontheight, &p->fontdata) || p->fontwidth != 8) getdefaultfont(p->var.xres, p->var.yres, NULL, &p->fontwidth, &p->fontheight, &p->fontdata); if (p->fontwidth != 8) panic("fbcon_setup: No support for fontwidth != 8"); if (divides(p->ywrapstep, p->fontheight) && divides(p->fontheight, p->var.yres_virtual)) p->scrollmode = SCROLL_YWRAP; else if (divides(p->ypanstep, p->fontheight) && p->var.yres_virtual >= p->var.yres+p->fontheight) p->scrollmode = SCROLL_YPAN; else p->scrollmode = SCROLL_YMOVE; conp->vc_cols = p->var.xres/p->fontwidth; conp->vc_rows = p->var.yres/p->fontheight; p->vrows = p->var.yres_virtual/p->fontheight; conp->vc_can_do_color = p->var.bits_per_pixel != 1; #ifdef CONFIG_FBCON_MONO if (p->var.bits_per_pixel == 1) { if (p->line_length) p->next_line = p->line_length; else p->next_line = p->var.xres_virtual>>3; p->next_plane = 0; p->dispsw = &dispsw_mono; } else #endif /* CONFIG_FBCON_MONO */ #ifdef CONFIG_FBCON_IPLAN2 if (p->type == FB_TYPE_INTERLEAVED_PLANES && p->type_aux == 2) { p->next_line = p->var.xres_virtual*p->var.bits_per_pixel>>3; p->next_plane = 0; #ifdef CONFIG_FBCON_2PLANE if (p->var.bits_per_pixel == 2) p->dispsw = &dispsw_2_plane; else #endif /* CONFIG_FBCON_2PLANE */ #ifdef CONFIG_FBCON_4PLANE if (p->var.bits_per_pixel == 4) p->dispsw = &dispsw_4_plane; else #endif /* CONFIG_FBCON_4PLANE */ #ifdef CONFIG_FBCON_8PLANE if (p->var.bits_per_pixel == 8) p->dispsw = &dispsw_8_plane; else #endif /* CONFIG_FBCON_8PLANE */ goto fail; } else #endif /* CONFIG_FBCON_IPLAN2 */ #ifdef CONFIG_FBCON_ILBM if (p->type == FB_TYPE_INTERLEAVED_PLANES && p->type_aux != 2) { if (p->line_length) { p->next_line = p->line_length*p->var.bits_per_pixel; p->next_plane = p->line_length; } else { p->next_line = p->type_aux; p->next_plane = p->type_aux/p->var.bits_per_pixel; } p->dispsw = &dispsw_ilbm; } else #endif /* CONFIG_FBCON_ILBM */ #ifdef CONFIG_FBCON_PLANES if (p->type == FB_TYPE_PLANES) { if (p->line_length) p->next_line = p->line_length; else p->next_line = p->var.xres_virtual>>3; p->next_plane = p->var.yres_virtual*p->next_line; p->dispsw = &dispsw_plan; } else #endif /* CONFIG_FBCON_PLANES */ #ifdef CONFIG_FBCON_PACKED if (p->type == FB_TYPE_PACKED_PIXELS) { p->next_line = p->var.xres_virtual*p->var.bits_per_pixel>>3; p->next_plane = 0; #ifdef CONFIG_FBCON_CYBER if (p->var.accel == FB_ACCEL_CYBERVISION) p->dispsw = &dispsw_cyber; else #endif /* CONFIG_FBCON_CYBER */ #ifdef CONFIG_FBCON_8PACKED if (p->var.bits_per_pixel == 8) p->dispsw = &dispsw_8_packed; else #endif /* CONFIG_FBCON_8PACKED */ #ifdef CONFIG_FBCON_16PACKED if (p->var.bits_per_pixel == 16) p->dispsw = &dispsw_16_packed; else #endif /* CONFIG_FBCON_16PACKED */ #ifdef CONFIG_FBCON_24PACKED if (p->var.bits_per_pixel == 24) p->dispsw = &dispsw_24_packed; else #endif /* CONFIG_FBCON_24PACKED */ #ifdef CONFIG_FBCON_32PACKED if (p->var.bits_per_pixel == 32) p->dispsw = &dispsw_32_packed; else #endif /* CONFIG_FBCON_32PACKED */ goto fail; } else #endif /* CONFIG_FBCON_PACKED */ { fail: #ifdef CONFIG_FBCON_MONO printk("fbcon_setup: type %d (aux %d) not supported, trying mono\n", p->type, p->type_aux); if (p->line_length) p->next_line = p->line_length; else p->next_line = p->var.xres_virtual>>3; p->next_plane = 0; p->var.bits_per_pixel = 1; p->dispsw = &dispsw_mono; #else /* CONFIG_FBCON_MONO */ panic("fbcon_setup: no default driver"); #endif /* CONFIG_FBCON_MONO */ } if (setcol) { p->fgcol = p->var.bits_per_pixel > 2 ? 7 : (1<<p->var.bits_per_pixel)-1; p->bgcol = 0; } if (cls) vc_resize_con(conp->vc_rows, conp->vc_cols, con); } /* ================================================================= */ /* Utility Assembler Functions */ /* ================================================================= */ /* ====================================================================== */ /* Those of a delicate disposition might like to skip the next couple of * pages. * * These functions are drop in replacements for memmove and * memset(_, 0, _). However their five instances add at least a kilobyte * to the object file. You have been warned. * * Not a great fan of assembler for the sake of it, but I think * that these routines are at least 10 times faster than their C * equivalents for large blits, and that's important to the lowest level of * a graphics driver. Question is whether some scheme with the blitter * would be faster. I suspect not for simple text system - not much * asynchrony. * * Code is very simple, just gruesome expansion. Basic strategy is to * increase data moved/cleared at each step to 16 bytes to reduce * instruction per data move overhead. movem might be faster still * For more than 15 bytes, we try to align the write direction on a * longword boundary to get maximum speed. This is even more gruesome. * Unaligned read/write used requires 68020+ - think this is a problem? * * Sorry! */ /* ++roman: I've optimized Robert's original versions in some minor * aspects, e.g. moveq instead of movel, let gcc choose the registers, * use movem in some places... * For other modes than 1 plane, lots of more such assembler functions * were needed (e.g. the ones using movep or expanding color values). */ /* ++andreas: more optimizations: subl #65536,d0 replaced by clrw d0; subql #1,d0 for dbcc addal is faster than addaw movep is rather expensive compared to ordinary move's some functions rewritten in C for clarity, no speed loss */ static __inline__ void *mymemclear_small(void *s, size_t count) { if (!count) return(0); __asm__ __volatile__( "lsrl #1,%1 ; jcc 1f ; moveb %2,%0@-\n\t" "1: lsrl #1,%1 ; jcc 1f ; movew %2,%0@-\n\t" "1: lsrl #1,%1 ; jcc 1f ; movel %2,%0@-\n\t" "1: lsrl #1,%1 ; jcc 1f ; movel %2,%0@- ; movel %2,%0@-\n\t" "1: subql #1,%1 ; jcs 3f\n\t" "2: moveml %2/%3/%4/%5,%0@-\n\t" "dbra %1,2b\n\t" "3:" : "=a" (s), "=d" (count) : "d" (0), "d" (0), "d" (0), "d" (0), "0" ((char *)s+count), "1" (count) ); return(0); } static __inline__ void *mymemclear(void *s, size_t count) { if (!count) return(0); if (count < 16) { __asm__ __volatile__( "lsrl #1,%1 ; jcc 1f ; clrb %0@+\n\t" "1: lsrl #1,%1 ; jcc 1f ; clrw %0@+\n\t" "1: lsrl #1,%1 ; jcc 1f ; clrl %0@+\n\t" "1: lsrl #1,%1 ; jcc 1f ; clrl %0@+ ; clrl %0@+\n\t" "1:" : "=a" (s), "=d" (count) : "0" (s), "1" (count) ); } else { long tmp; __asm__ __volatile__( "movel %1,%2\n\t" "lsrl #1,%2 ; jcc 1f ; clrb %0@+ ; subqw #1,%1\n\t" "lsrl #1,%2 ; jcs 2f\n\t" /* %0 increased=>bit 2 switched*/ "clrw %0@+ ; subqw #2,%1 ; jra 2f\n\t" "1: lsrl #1,%2 ; jcc 2f\n\t" "clrw %0@+ ; subqw #2,%1\n\t" "2: movew %1,%2; lsrl #2,%1 ; jeq 6f\n\t" "lsrl #1,%1 ; jcc 3f ; clrl %0@+\n\t" "3: lsrl #1,%1 ; jcc 4f ; clrl %0@+ ; clrl %0@+\n\t" "4: subql #1,%1 ; jcs 6f\n\t" "5: clrl %0@+; clrl %0@+ ; clrl %0@+ ; clrl %0@+\n\t" "dbra %1,5b ; clrw %1; subql #1,%1; jcc 5b\n\t" "6: movew %2,%1; btst #1,%1 ; jeq 7f ; clrw %0@+\n\t" "7: ; btst #0,%1 ; jeq 8f ; clrb %0@+\n\t" "8:" : "=a" (s), "=d" (count), "=d" (tmp) : "0" (s), "1" (count) ); } return(0); } static __inline__ void *mymemset(void *s, size_t count) { if (!count) return(0); __asm__ __volatile__( "lsrl #1,%1 ; jcc 1f ; moveb %2,%0@-\n\t" "1: lsrl #1,%1 ; jcc 1f ; movew %2,%0@-\n\t" "1: lsrl #1,%1 ; jcc 1f ; movel %2,%0@-\n\t" "1: lsrl #1,%1 ; jcc 1f ; movel %2,%0@- ; movel %2,%0@-\n\t" "1: subql #1,%1 ; jcs 3f\n\t" "2: moveml %2/%3/%4/%5,%0@-\n\t" "dbra %1,2b\n\t" "3:" : "=a" (s), "=d" (count) : "d" (-1), "d" (-1), "d" (-1), "d" (-1), "0" ((char *) s + count), "1" (count) ); return(0); } static __inline__ void *mymemmove(void *d, void *s, size_t count) { if (d < s) { if (count < 16) { __asm__ __volatile__( "lsrl #1,%2 ; jcc 1f ; moveb %1@+,%0@+\n\t" "1: lsrl #1,%2 ; jcc 1f ; movew %1@+,%0@+\n\t" "1: lsrl #1,%2 ; jcc 1f ; movel %1@+,%0@+\n\t" "1: lsrl #1,%2 ; jcc 1f ; movel %1@+,%0@+ ; movel %1@+,%0@+\n\t" "1:" : "=a" (d), "=a" (s), "=d" (count) : "0" (d), "1" (s), "2" (count) ); } else { long tmp; __asm__ __volatile__( "movel %0,%3\n\t" "lsrl #1,%3 ; jcc 1f ; moveb %1@+,%0@+ ; subqw #1,%2\n\t" "lsrl #1,%3 ; jcs 2f\n\t" /* %0 increased=>bit 2 switched*/ "movew %1@+,%0@+ ; subqw #2,%2 ; jra 2f\n\t" "1: lsrl #1,%3 ; jcc 2f\n\t" "movew %1@+,%0@+ ; subqw #2,%2\n\t" "2: movew %2,%-; lsrl #2,%2 ; jeq 6f\n\t" "lsrl #1,%2 ; jcc 3f ; movel %1@+,%0@+\n\t" "3: lsrl #1,%2 ; jcc 4f ; movel %1@+,%0@+ ; movel %1@+,%0@+\n\t" "4: subql #1,%2 ; jcs 6f\n\t" "5: movel %1@+,%0@+;movel %1@+,%0@+\n\t" "movel %1@+,%0@+;movel %1@+,%0@+\n\t" "dbra %2,5b ; clrw %2; subql #1,%2; jcc 5b\n\t" "6: movew %+,%2; btst #1,%2 ; jeq 7f ; movew %1@+,%0@+\n\t" "7: ; btst #0,%2 ; jeq 8f ; moveb %1@+,%0@+\n\t" "8:" : "=a" (d), "=a" (s), "=d" (count), "=d" (tmp) : "0" (d), "1" (s), "2" (count) ); } } else { if (count < 16) { __asm__ __volatile__( "lsrl #1,%2 ; jcc 1f ; moveb %1@-,%0@-\n\t" "1: lsrl #1,%2 ; jcc 1f ; movew %1@-,%0@-\n\t" "1: lsrl #1,%2 ; jcc 1f ; movel %1@-,%0@-\n\t" "1: lsrl #1,%2 ; jcc 1f ; movel %1@-,%0@- ; movel %1@-,%0@-\n\t" "1:" : "=a" (d), "=a" (s), "=d" (count) : "0" ((char *) d + count), "1" ((char *) s + count), "2" (count) ); } else { long tmp; __asm__ __volatile__( "movel %0,%3\n\t" "lsrl #1,%3 ; jcc 1f ; moveb %1@-,%0@- ; subqw #1,%2\n\t" "lsrl #1,%3 ; jcs 2f\n\t" /* %0 increased=>bit 2 switched*/ "movew %1@-,%0@- ; subqw #2,%2 ; jra 2f\n\t" "1: lsrl #1,%3 ; jcc 2f\n\t" "movew %1@-,%0@- ; subqw #2,%2\n\t" "2: movew %2,%-; lsrl #2,%2 ; jeq 6f\n\t" "lsrl #1,%2 ; jcc 3f ; movel %1@-,%0@-\n\t" "3: lsrl #1,%2 ; jcc 4f ; movel %1@-,%0@- ; movel %1@-,%0@-\n\t" "4: subql #1,%2 ; jcs 6f\n\t" "5: movel %1@-,%0@-;movel %1@-,%0@-\n\t" "movel %1@-,%0@-;movel %1@-,%0@-\n\t" "dbra %2,5b ; clrw %2; subql #1,%2; jcc 5b\n\t" "6: movew %+,%2; btst #1,%2 ; jeq 7f ; movew %1@-,%0@-\n\t" "7: ; btst #0,%2 ; jeq 8f ; moveb %1@-,%0@-\n\t" "8:" : "=a" (d), "=a" (s), "=d" (count), "=d" (tmp) : "0" ((char *) d + count), "1" ((char *) s + count), "2" (count) ); } } return(0); } /* ++andreas: Simple and fast version of memmove, assumes size is divisible by 16, suitable for moving the whole screen bitplane */ static __inline__ void fast_memmove(char *dst, char *src, size_t size) { if (!size) return; if (dst < src) __asm__ __volatile__ ("1:" " moveml %0@+,%/d0/%/d1/%/a0/%/a1\n" " moveml %/d0/%/d1/%/a0/%/a1,%1@\n" " addql #8,%1; addql #8,%1\n" " dbra %2,1b\n" " clrw %2; subql #1,%2\n" " jcc 1b" : "=a" (src), "=a" (dst), "=d" (size) : "0" (src), "1" (dst), "2" (size / 16 - 1) : "d0", "d1", "a0", "a1", "memory"); else __asm__ __volatile__ ("1:" " subql #8,%0; subql #8,%0\n" " moveml %0@,%/d0/%/d1/%/a0/%/a1\n" " moveml %/d0/%/d1/%/a0/%/a1,%1@-\n" " dbra %2,1b\n" " clrw %2; subql #1,%2\n" " jcc 1b" : "=a" (src), "=a" (dst), "=d" (size) : "0" (src + size), "1" (dst + size), "2" (size / 16 - 1) : "d0", "d1", "a0", "a1", "memory"); } /* Sets the bytes in the visible column at d, height h, to the value * val for a 4 plane screen. The the bis of the color in 'color' are * moved (8 times) to the respective bytes. This means: * * for(h times; d += bpr) * *d = (color & 1) ? 0xff : 0; * *(d+2) = (color & 2) ? 0xff : 0; * *(d+4) = (color & 4) ? 0xff : 0; * *(d+6) = (color & 8) ? 0xff : 0; */ static __inline__ void memclear_4p_col(void *d, size_t h, u_long val, int bpr) { __asm__ __volatile__ ("1: movepl %4,%0@(0)\n\t" "addal %5,%0\n\t" "dbra %1,1b" : "=a" (d), "=d" (h) : "0" (d), "1" (h - 1), "d" (val), "r" (bpr) ); } /* Sets a 4 plane region from 'd', length 'count' bytes, to the color * in val1/val2. 'd' has to be an even address and count must be divisible * by 8, because only whole words and all planes are accessed. I.e.: * * for(count/8 times) * *d = *(d+1) = (color & 1) ? 0xff : 0; * *(d+2) = *(d+3) = (color & 2) ? 0xff : 0; * *(d+4) = *(d+5) = (color & 4) ? 0xff : 0; * *(d+6) = *(d+7) = (color & 8) ? 0xff : 0; */ static __inline__ void memset_even_4p(void *d, size_t count, u_long val1, u_long val2) { u_long *dd = d; count /= 8; while (count--) { *dd++ = val1; *dd++ = val2; } } /* Copies a 4 plane column from 's', height 'h', to 'd'. */ static __inline__ void memmove_4p_col (void *d, void *s, int h, int bpr) { u_char *dd = d, *ss = s; while (h--) { dd[0] = ss[0]; dd[2] = ss[2]; dd[4] = ss[4]; dd[6] = ss[6]; dd += bpr; ss += bpr; } } /* This expands a 4 bit color into a long for movepl (4 plane) operations. */ static __inline__ u_long expand4l(u_char c) { u_long rv; __asm__ __volatile__ ("lsrb #1,%2\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" : "=&d" (rv), "=d" (c) : "1" (c) ); return(rv); } /* This expands a 4 bit color into two longs for two movel operations * (4 planes). */ static __inline__ void expand4dl(u_char c, u_long *ret1, u_long *ret2) { u_long rv1, rv2; __asm__ __volatile__ ("lsrb #1,%3\n\t" "scs %0\n\t" "extw %0\n\t" "swap %0\n\t" "lsrb #1,%3\n\t" "scs %0\n\t" "extw %0\n\t" "lsrb #1,%3\n\t" "scs %1\n\t" "extw %1\n\t" "swap %1\n\t" "lsrb #1,%3\n\t" "scs %1\n\t" "extw %1" : "=&d" (rv1), "=&d" (rv2), "=d" (c) : "2" (c) ); *ret1 = rv1; *ret2 = rv2; } /* This duplicates a byte 4 times into a long. */ static __inline__ u_long dup4l(u_char c) { ushort tmp; ulong rv; __asm__ __volatile__ ("moveb %2,%0\n\t" "lslw #8,%0\n\t" "moveb %2,%0\n\t" "movew %0,%1\n\t" "swap %0\n\t" "movew %1,%0" : "=&d" (rv), "=d" (tmp) : "d" (c) ); return(rv); } /* Sets the bytes in the visible column at d, height h, to the value * val1,val2 for a 8 plane screen. The the bis of the color in 'color' are * moved (8 times) to the respective bytes. This means: * * for(h times; d += bpr) * *d = (color & 1) ? 0xff : 0; * *(d+2) = (color & 2) ? 0xff : 0; * *(d+4) = (color & 4) ? 0xff : 0; * *(d+6) = (color & 8) ? 0xff : 0; * *(d+8) = (color & 16) ? 0xff : 0; * *(d+10) = (color & 32) ? 0xff : 0; * *(d+12) = (color & 64) ? 0xff : 0; * *(d+14) = (color & 128) ? 0xff : 0; */ static __inline__ void memclear_8p_col(void *d, size_t h, u_long val1, u_long val2, int bpr) { __asm__ __volatile__ ("1: movepl %4,%0@(0)\n\t" "movepl %5,%0@(8)\n\t" "addal %6,%0\n\t" "dbra %1,1b" : "=a" (d), "=d" (h) : "0" (d), "1" (h - 1), "d" (val1), "d" (val2), "r" (bpr) ); } /* Sets a 8 plane region from 'd', length 'count' bytes, to the color * val1..val4. 'd' has to be an even address and count must be divisible * by 16, because only whole words and all planes are accessed. I.e.: * * for(count/16 times) * *d = *(d+1) = (color & 1) ? 0xff : 0; * *(d+2) = *(d+3) = (color & 2) ? 0xff : 0; * *(d+4) = *(d+5) = (color & 4) ? 0xff : 0; * *(d+6) = *(d+7) = (color & 8) ? 0xff : 0; * *(d+8) = *(d+9) = (color & 16) ? 0xff : 0; * *(d+10) = *(d+11) = (color & 32) ? 0xff : 0; * *(d+12) = *(d+13) = (color & 64) ? 0xff : 0; * *(d+14) = *(d+15) = (color & 128) ? 0xff : 0; */ static __inline__ void memset_even_8p(void *d, size_t count, u_long val1, u_long val2, u_long val3, u_long val4) { u_long *dd = d; count /= 16; while (count--) { *dd++ = val1; *dd++ = val2; *dd++ = val3; *dd++ = val4; } } /* Copies a 8 plane column from 's', height 'h', to 'd'. */ static __inline__ void memmove_8p_col (void *d, void *s, int h, int bpr) { u_char *dd = d, *ss = s; while (h--) { dd[0] = ss[0]; dd[2] = ss[2]; dd[4] = ss[4]; dd[6] = ss[6]; dd[8] = ss[8]; dd[10] = ss[10]; dd[12] = ss[12]; dd[14] = ss[14]; dd += bpr; ss += bpr; } } /* This expands a 8 bit color into two longs for two movepl (8 plane) * operations. */ static __inline__ void expand8dl(u_char c, u_long *ret1, u_long *ret2) { u_long rv1, rv2; __asm__ __volatile__ ("lsrb #1,%3\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%3\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%3\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%3\n\t" "scs %0\n\t" "lsrb #1,%3\n\t" "scs %1\n\t" "lsll #8,%1\n\t" "lsrb #1,%3\n\t" "scs %1\n\t" "lsll #8,%1\n\t" "lsrb #1,%3\n\t" "scs %1\n\t" "lsll #8,%1\n\t" "lsrb #1,%3\n\t" "scs %1" : "=&d" (rv1), "=&d" (rv2),"=d" (c) : "2" (c) ); *ret1 = rv1; *ret2 = rv2; } /* This expands a 8 bit color into four longs for four movel operations * (8 planes). */ /* ++andreas: use macro to avoid taking address of return values */ #define expand8ql(c, rv1, rv2, rv3, rv4) \ do { u_char tmp = c; \ __asm__ __volatile__ \ ("lsrb #1,%5\n\t" \ "scs %0\n\t" \ "extw %0\n\t" \ "swap %0\n\t" \ "lsrb #1,%5\n\t" \ "scs %0\n\t" \ "extw %0\n\t" \ "lsrb #1,%5\n\t" \ "scs %1\n\t" \ "extw %1\n\t" \ "swap %1\n\t" \ "lsrb #1,%5\n\t" \ "scs %1\n\t" \ "extw %1\n\t" \ "lsrb #1,%5\n\t" \ "scs %2\n\t" \ "extw %2\n\t" \ "swap %2\n\t" \ "lsrb #1,%5\n\t" \ "scs %2\n\t" \ "extw %2\n\t" \ "lsrb #1,%5\n\t" \ "scs %3\n\t" \ "extw %3\n\t" \ "swap %3\n\t" \ "lsrb #1,%5\n\t" \ "scs %3\n\t" \ "extw %3" \ : "=&d" (rv1), "=&d" (rv2), "=&d" (rv3), \ "=&d" (rv4), "=d" (tmp) \ : "4" (tmp) \ ); \ } while (0) /* Sets the bytes in the visible column at d, height h, to the value * val for a 2 plane screen. The the bis of the color in 'color' are * moved (8 times) to the respective bytes. This means: * * for(h times; d += bpr) * *d = (color & 1) ? 0xff : 0; * *(d+2) = (color & 2) ? 0xff : 0; */ static __inline__ void memclear_2p_col(void *d, size_t h, u_short val, int bpr) { __asm__ __volatile__ ("1: movepw %4,%0@(0)\n\t" "addal %5,%0\n\t" "dbra %1,1b" : "=a" (d), "=d" (h) : "0" (d), "1" (h - 1), "d" (val), "r" (bpr) ); } /* Sets a 2 plane region from 'd', length 'count' bytes, to the color * in val1. 'd' has to be an even address and count must be divisible * by 8, because only whole words and all planes are accessed. I.e.: * * for(count/4 times) * *d = *(d+1) = (color & 1) ? 0xff : 0; * *(d+2) = *(d+3) = (color & 2) ? 0xff : 0; */ static __inline__ void memset_even_2p(void *d, size_t count, u_long val) { u_long *dd = d; count /= 4; while (count--) *dd++ = val; } /* Copies a 2 plane column from 's', height 'h', to 'd'. */ static __inline__ void memmove_2p_col (void *d, void *s, int h, int bpr) { u_char *dd = d, *ss = s; while (h--) { dd[0] = ss[0]; dd[2] = ss[2]; dd += bpr; ss += bpr; } } /* This expands a 2 bit color into a short for movepw (2 plane) operations. */ static __inline__ u_short expand2w(u_char c) { u_short rv; __asm__ __volatile__ ("lsrb #1,%2\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" : "=&d" (rv), "=d" (c) : "1" (c) ); return(rv); } /* This expands a 2 bit color into one long for a movel operation * (2 planes). */ static __inline__ u_long expand2l(u_char c) { u_long rv; __asm__ __volatile__ ("lsrb #1,%2\n\t" "scs %0\n\t" "extw %0\n\t" "swap %0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" "extw %0\n\t" : "=&d" (rv), "=d" (c) : "1" (c) ); return rv; } /* This duplicates a byte 2 times into a short. */ static __inline__ u_short dup2w(u_char c) { ushort rv; __asm__ __volatile__ ( "moveb %1,%0\n\t" "lslw #8,%0\n\t" "moveb %1,%0\n\t" : "=&d" (rv) : "d" (c) ); return( rv ); } /* ====================================================================== */ /* fbcon_XXX routines - interface used by the world * * This system is now divided into two levels because of complications * caused by hardware scrolling. Top level functions: * * fbcon_bmove(), fbcon_clear(), fbcon_putc() * * handles y values in range [0, scr_height-1] that correspond to real * screen positions. y_wrap shift means that first line of bitmap may be * anywhere on this display. These functions convert lineoffsets to * bitmap offsets and deal with the wrap-around case by splitting blits. * * fbcon_bmove_physical_8() -- These functions fast implementations * fbcon_clear_physical_8() -- of original fbcon_XXX fns. * fbcon_putc_physical_8() -- (fontwidth != 8) may be added later * * WARNING: * * At the moment fbcon_putc() cannot blit across vertical wrap boundary * Implies should only really hardware scroll in rows. Only reason for * restriction is simplicity & efficiency at the moment. */ static __inline__ int real_y(struct display *p, int y) { int rows = p->vrows; y += p->yscroll; return(y < rows ? y : y-rows); } static int fbcon_clear(struct vc_data *conp, int sy, int sx, int height, int width) { int unit = conp->vc_num; struct display *p = &disp[unit]; u_int y_break; if (!p->can_soft_blank && console_blanked) return(0); if ((sy <= p->cursor_y) && (p->cursor_y < sy+height) && (sx <= p->cursor_x) && (p->cursor_x < sx+width)) CURSOR_UNDRAWN(); /* Split blits that cross physical y_wrap boundary */ y_break = p->vrows-p->yscroll; if (sy < y_break && sy+height-1 >= y_break) { u_int b = y_break-sy; p->dispsw->clear(conp, p, real_y(p, sy), sx, b, width); p->dispsw->clear(conp, p, real_y(p, sy+b), sx, height-b, width); } else p->dispsw->clear(conp, p, real_y(p, sy), sx, height, width); return(0); } static int fbcon_putc(struct vc_data *conp, int c, int y, int x) { int unit = conp->vc_num; struct display *p = &disp[unit]; if (!p->can_soft_blank && console_blanked) return(0); if ((p->cursor_x == x) && (p->cursor_y == y)) CURSOR_UNDRAWN(); p->dispsw->putc(conp, p, c, real_y(p, y), x); return(0); } static int fbcon_putcs(struct vc_data *conp, const char *s, int count, int y, int x) { int unit = conp->vc_num; struct display *p = &disp[unit]; if (!p->can_soft_blank && console_blanked) return(0); if ((p->cursor_y == y) && (x <= p->cursor_x) && (p->cursor_x < x+count)) CURSOR_UNDRAWN(); p->dispsw->putcs(conp, p, s, count, real_y(p, y), x); return(0); } static int fbcon_cursor(struct vc_data *conp, int mode) { int unit = conp->vc_num; struct display *p = &disp[unit]; if (CURSOR_UNDRAWN ()) p->dispsw->rev_char(p, p->cursor_x, real_y(p, p->cursor_y)); p->cursor_x = conp->vc_x; p->cursor_y = conp->vc_y; switch (mode) { case CM_ERASE: cursor_on = 0; break; case CM_MOVE: case CM_DRAW: vbl_cursor_cnt = CURSOR_DRAW_DELAY; cursor_on = 1; break; } return(0); } static void fbcon_vbl_handler(int irq, struct pt_regs *fp, void *dummy) { struct display *p; if (!cursor_on) return; if (vbl_cursor_cnt && --vbl_cursor_cnt == 0) { /* Here no check is possible for console changing. The console * switching code should set vbl_cursor_cnt to an appropriate value. */ p = &disp[fg_console]; p->dispsw->rev_char(p, p->cursor_x, real_y(p, p->cursor_y)); cursor_drawn ^= 1; vbl_cursor_cnt = cursor_blink_rate; } } static int fbcon_scroll(struct vc_data *conp, int t, int b, int dir, int count) { int unit = conp->vc_num; struct display *p = &disp[unit]; if (!p->can_soft_blank && console_blanked) return(0); fbcon_cursor(conp, CM_ERASE); /* * ++Geert: Only use ywrap/ypan if the console is in text mode */ switch (dir) { case SM_UP: if (t == 0 && b == conp->vc_rows && vt_cons[unit]->vc_mode == KD_TEXT) { if (count > conp->vc_rows) /* Maximum realistic size */ count = conp->vc_rows; switch (p->scrollmode) { case SCROLL_YWRAP: p->yscroll += count; if (p->yscroll >= p->vrows) /* Deal with wrap */ p->yscroll -= p->vrows; p->var.xoffset = 0; p->var.yoffset = p->yscroll*p->fontheight; p->var.vmode |= FB_VMODE_YWRAP; fb_info->updatevar(unit); break; case SCROLL_YPAN: p->yscroll += count; if (p->yscroll+conp->vc_rows > p->vrows) { p->dispsw->bmove(p, p->yscroll, 0, 0, 0, b-count, conp->vc_cols); p->yscroll = 0; } p->var.xoffset = 0; p->var.yoffset = p->yscroll*p->fontheight; p->var.vmode &= ~FB_VMODE_YWRAP; fb_info->updatevar(unit); break; case SCROLL_YMOVE: p->dispsw->bmove(p, count, 0, 0, 0, b-count, conp->vc_cols); break; } } else fbcon_bmove(conp, t+count, 0, t, 0, b-t-count, conp->vc_cols); fbcon_clear(conp, b-count, 0, count, conp->vc_cols); break; case SM_DOWN: if (t == 0 && b == conp->vc_rows && vt_cons[unit]->vc_mode == KD_TEXT) { if (count > conp->vc_rows) /* Maximum realistic size */ count = conp->vc_rows; switch (p->scrollmode) { case SCROLL_YWRAP: p->yscroll -= count; if (p->yscroll < 0) /* Deal with wrap */ p->yscroll += p->vrows; p->var.xoffset = 0; p->var.yoffset = p->yscroll*p->fontheight; p->var.vmode |= FB_VMODE_YWRAP; fb_info->updatevar(unit); break; case SCROLL_YPAN: p->yscroll -= count; if (p->yscroll < 0) { p->yscroll = p->vrows-conp->vc_rows; p->dispsw->bmove(p, 0, 0, p->yscroll+count, 0, b-count, conp->vc_cols); } p->var.xoffset = 0; p->var.yoffset = p->yscroll*p->fontheight; p->var.vmode &= ~FB_VMODE_YWRAP; fb_info->updatevar(unit); break; case SCROLL_YMOVE: p->dispsw->bmove(p, 0, 0, count, 0, b-count, conp->vc_cols); break; } } else fbcon_bmove(conp, t, 0, t+count, 0, b-t-count, conp->vc_cols); /* Fixed bmove() should end Arno's frustration with copying? * Confucius says: * Man who copies in wrong direction, end up with trashed data */ fbcon_clear(conp, t, 0, count, conp->vc_cols); break; case SM_LEFT: fbcon_bmove(conp, 0, t+count, 0, t, conp->vc_rows, b-t-count); fbcon_clear(conp, 0, b-count, conp->vc_rows, count); break; case SM_RIGHT: fbcon_bmove(conp, 0, t, 0, t+count, conp->vc_rows, b-t-count); fbcon_clear(conp, 0, t, conp->vc_rows, count); break; } return(0); } static int fbcon_bmove(struct vc_data *conp, int sy, int sx, int dy, int dx, int height, int width) { int unit = conp->vc_num; struct display *p = &disp[unit]; if (!p->can_soft_blank && console_blanked) return(0); if (((sy <= p->cursor_y) && (p->cursor_y < sy+height) && (sx <= p->cursor_x) && (p->cursor_x < sx+width)) || ((dy <= p->cursor_y) && (p->cursor_y < dy+height) && (dx <= p->cursor_x) && (p->cursor_x < dx+width))) fbcon_cursor(conp, CM_ERASE); /* Split blits that cross physical y_wrap case. * Pathological case involves 4 blits, better to use recursive * code rather than unrolled case * * Recursive invocations don't need to erase the cursor over and * over again, so we use fbcon_bmove_rec() */ fbcon_bmove_rec(p, sy, sx, dy, dx, height, width, p->vrows-p->yscroll); return(0); } static void fbcon_bmove_rec(struct display *p, int sy, int sx, int dy, int dx, int height, int width, u_int y_break) { u_int b; if (sy < y_break && sy+height > y_break) { b = y_break-sy; if (dy < sy) { /* Avoid trashing self */ fbcon_bmove_rec(p, sy, sx, dy, dx, b, width, y_break); fbcon_bmove_rec(p, sy+b, sx, dy+b, dx, height-b, width, y_break); } else { fbcon_bmove_rec(p, sy+b, sx, dy+b, dx, height-b, width, y_break); fbcon_bmove_rec(p, sy, sx, dy, dx, b, width, y_break); } return; } if (dy < y_break && dy+height > y_break) { b = y_break-dy; if (dy < sy) { /* Avoid trashing self */ fbcon_bmove_rec(p, sy, sx, dy, dx, b, width, y_break); fbcon_bmove_rec(p, sy+b, sx, dy+b, dx, height-b, width, y_break); } else { fbcon_bmove_rec(p, sy+b, sx, dy+b, dx, height-b, width, y_break); fbcon_bmove_rec(p, sy, sx, dy, dx, b, width, y_break); } return; } p->dispsw->bmove(p, real_y(p, sy), sx, real_y(p, dy), dx, height, width); } static int fbcon_switch(struct vc_data *conp) { if (fb_info && fb_info->switch_con) (*fb_info->switch_con)(conp->vc_num); return(0); } static int fbcon_blank(int blank) { struct display *p = &disp[fg_console]; fbcon_cursor(p->conp, blank ? CM_ERASE : CM_DRAW); if (!p->can_soft_blank) if (blank) { if (p->visual == FB_VISUAL_MONO01) mymemset(p->screen_base, p->var.xres_virtual*p->var.yres_virtual* p->var.bits_per_pixel>>3); else mymemclear(p->screen_base, p->var.xres_virtual*p->var.yres_virtual* p->var.bits_per_pixel>>3); return(0); } else { /* Tell console.c that it has to restore the screen itself */ return(1); } (*fb_info->blank)(blank); return(0); } static int fbcon_get_font(struct vc_data *conp, int *w, int *h, char *data) { int unit = conp->vc_num; struct display *p = &disp[unit]; int i, size, alloc; size = (p->fontwidth+7)/8 * p->fontheight * 256; alloc = (*w+7)/8 * *h * 256; *w = p->fontwidth; *h = p->fontheight; if (alloc < size) /* allocation length not sufficient */ return( -ENAMETOOLONG ); if ((i = verify_area( VERIFY_WRITE, (void *)data, size ))) return i; memcpy_tofs( data, p->fontdata, size ); return( 0 ); } #define REFCOUNT(fd) (((int *)(fd))[-1]) static int fbcon_set_font(struct vc_data *conp, int w, int h, char *data) { int unit = conp->vc_num; struct display *p = &disp[unit]; int i, size, userspace = 1, resize; char *old_data = NULL, *new_data; if (w < 0) w = p->fontwidth; if (h < 0) h = p->fontheight; if (w == 0) { /* engage predefined font, name in 'data' */ char name[MAX_FONT_NAME+1]; if ((i = verify_area( VERIFY_READ, (void *)data, MAX_FONT_NAME ))) return i; memcpy_fromfs( name, data, MAX_FONT_NAME ); name[sizeof(name)-1] = 0; if (!findsoftfont( name, &w, &h, (u_char **)&data )) return( -ENOENT ); userspace = 0; } else if (w == 1) { /* copy font from some other console in 'h'*/ struct display *op; if (h < 0 || !vc_cons_allocated( h )) return( -ENOTTY ); if (h == unit) return( 0 ); /* nothing to do */ op = &disp[h]; if (op->fontdata == p->fontdata) return( 0 ); /* already the same font... */ resize = (op->fontwidth != p->fontwidth) || (op->fontheight != p->fontheight); if (p->userfont) old_data = p->fontdata; p->fontdata = op->fontdata; w = p->fontwidth = op->fontwidth; h = p->fontheight = op->fontheight; if ((p->userfont = op->userfont)) REFCOUNT(p->fontdata)++; /* increment usage counter */ goto activate; } if (w != 8) /* Currently only fontwidth == 8 supported */ return( -ENXIO ); resize = (w != p->fontwidth) || (h != p->fontheight); size = (w+7)/8 * h * 256; if (p->userfont) old_data = p->fontdata; if (userspace) { if ((i = verify_area( VERIFY_READ, (void *)data, size ))) return i; if (!(new_data = kmalloc( sizeof(int)+size, GFP_USER ))) return( -ENOMEM ); new_data += sizeof(int); REFCOUNT(new_data) = 1; /* usage counter */ memcpy_fromfs( new_data, data, size ); p->fontdata = new_data; p->userfont = 1; } else { p->fontdata = data; p->userfont = 0; } p->fontwidth = w; p->fontheight = h; activate: if (resize) { p->var.xoffset = p->var.yoffset = p->yscroll = 0; /* reset wrap/pan */ if (divides(p->ywrapstep, p->fontheight)) p->scrollmode = SCROLL_YWRAP; else if (divides(p->ypanstep, p->fontheight) && p->var.yres_virtual >= p->var.yres+p->fontheight) p->scrollmode = SCROLL_YPAN; else p->scrollmode = SCROLL_YMOVE; vc_resize_con( p->var.yres/h, p->var.xres/w, unit ); } else if (unit == fg_console) update_screen( unit ); if (old_data) { if (--REFCOUNT(old_data) == 0) { kfree( old_data - sizeof(int) ); } } return( 0 ); } /* ====================================================================== */ /* * Low Level Operations for the various display memory organizations. * * Currently only the following organizations are supported here: * * - Monochrome * - Color Interleaved Planes à la Amiga * - Color Normal Planes * - Color Interleaved Planes à la Atari (2, 4 and 8 planes) * - Color Packed Pixels (8 and 16 bpp) * - Cybervision Color Packed Pixels (accelerated) */ #ifdef CONFIG_FBCON_MONO /* * Monochrome */ static void bmove_mono(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { u_char *src, *dest; u_int rows; if (sx == 0 && sy == 0 && width == p->next_line) { src = p->screen_base; dest = p->screen_base+dy*p->fontheight*width; mymemmove(dest, src, height*p->fontheight*width); } else if (dy <= sy) { src = p->screen_base+sy*p->fontheight*p->next_line+sx; dest = p->screen_base+dy*p->fontheight*p->next_line+dx; for (rows = height*p->fontheight; rows--;) { mymemmove(dest, src, width); src += p->next_line; dest += p->next_line; } } else { src = p->screen_base+((sy+height)*p->fontheight-1)*p->next_line+sx; dest = p->screen_base+((dy+height)*p->fontheight-1)*p->next_line+dx; for (rows = height*p->fontheight; rows--;) { mymemmove(dest, src, width); src -= p->next_line; dest -= p->next_line; } } } static void clear_mono(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { u_char *dest; u_int rows; dest = p->screen_base+sy*p->fontheight*p->next_line+sx; if (sx == 0 && width == p->next_line) if (attr_reverse(p,conp)) mymemset(dest, height*p->fontheight*width); else mymemclear(dest, height*p->fontheight*width); else for (rows = height*p->fontheight; rows--; dest += p->next_line) if (attr_reverse(p,conp)) mymemset(dest, width); else mymemclear_small(dest, width); } static void putc_mono(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest, *cdat; u_int rows, bold, reverse, underline; u_char d; c &= 0xff; dest = p->screen_base+y*p->fontheight*p->next_line+x; cdat = p->fontdata+c*p->fontheight; bold = attr_bold(p,conp); reverse = attr_reverse(p,conp); underline = attr_underline(p,conp); for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat++; if (underline && !rows) d = 0xff; else if (bold) d |= d>>1; if (reverse) d = ~d; *dest = d; } } static void putcs_mono(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest, *dest0, *cdat; u_int rows, bold, reverse, underline; u_char c, d; dest0 = p->screen_base+y*p->fontheight*p->next_line+x; bold = attr_bold(p,conp); reverse = attr_reverse(p,conp); underline = attr_underline(p,conp); while (count--) { c = *s++; dest = dest0++; cdat = p->fontdata+c*p->fontheight; for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat++; if (underline && !rows) d = 0xff; else if (bold) d |= d>>1; if (reverse) d = ~d; *dest = d; } } } static void rev_char_mono(struct display *p, int x, int y) { u_char *dest; u_int rows; dest = p->screen_base+y*p->fontheight*p->next_line+x; for (rows = p->fontheight; rows--; dest += p->next_line) *dest = ~*dest; } #endif /* CONFIG_FBCON_MONO */ /* ====================================================================== */ #ifdef CONFIG_FBCON_ILBM /* * Color Interleaved Planes * * This code heavily relies on the fact that * * next_line == interleave == next_plane*bits_per_pixel * * But maybe it can be merged with the code for normal bitplanes without * much performance loss? */ static void bmove_ilbm(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { if (sx == 0 && sy == 0 && width == p->next_plane) mymemmove(p->screen_base+dy*p->fontheight*p->next_line, p->screen_base, height*p->fontheight*p->next_line); else { u_char *src, *dest; u_int i; if (dy <= sy) { src = p->screen_base+sy*p->fontheight*p->next_line+sx; dest = p->screen_base+dy*p->fontheight*p->next_line+dx; for (i = p->var.bits_per_pixel*height*p->fontheight; i--;) { mymemmove(dest, src, width); src += p->next_plane; dest += p->next_plane; } } else { src = p->screen_base+(sy+height)*p->fontheight*p->next_line+sx; dest = p->screen_base+(dy+height)*p->fontheight*p->next_line+dx; for (i = p->var.bits_per_pixel*height*p->fontheight; i--;) { src -= p->next_plane; dest -= p->next_plane; mymemmove(dest, src, width); } } } } static void clear_ilbm(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { u_char *dest; u_int i, rows; int bg, bg0; dest = p->screen_base+sy*p->fontheight*p->next_line+sx; bg0 = attr_bgcol_ec(p,conp); for (rows = height*p->fontheight; rows--;) { bg = bg0; for (i = p->var.bits_per_pixel; i--; dest += p->next_plane) { if (bg & 1) mymemset(dest, width); else mymemclear(dest, width); bg >>= 1; } } } static void putc_ilbm(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest, *cdat; u_int rows, i; u_char d; int fg0, bg0, fg, bg; c &= 0xff; dest = p->screen_base+y*p->fontheight*p->next_line+x; cdat = p->fontdata+c*p->fontheight; fg0 = attr_fgcol(p,conp); bg0 = attr_bgcol(p,conp); for (rows = p->fontheight; rows--;) { d = *cdat++; fg = fg0; bg = bg0; for (i = p->var.bits_per_pixel; i--; dest += p->next_plane) { if (bg & 1) if (fg & 1) *dest = 0xff; else *dest = ~d; else if (fg & 1) *dest = d; else *dest = 0x00; bg >>= 1; fg >>= 1; } } } /* * I split the console character loop in two parts: * * - slow version: this blits one character at a time * * - fast version: this blits 4 characters at a time at a longword aligned * address, to reduce the number of expensive Chip RAM * accesses. * * Experiments on my A4000/040 revealed that this makes a console switch on a * 640x400 screen with 256 colors about 3 times faster. * * Geert */ static void putcs_ilbm(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest0, *dest, *cdat1, *cdat2, *cdat3, *cdat4; u_int rows, i; u_char c1, c2, c3, c4; u_long d; int fg0, bg0, fg, bg; dest0 = p->screen_base+y*p->fontheight*p->next_line+x; fg0 = attr_fgcol(p,conp); bg0 = attr_bgcol(p,conp); while (count--) if (x&3 || count < 3) { /* Slow version */ c1 = *s++; dest = dest0++; x++; cdat1 = p->fontdata+c1*p->fontheight; for (rows = p->fontheight; rows--;) { d = *cdat1++; fg = fg0; bg = bg0; for (i = p->var.bits_per_pixel; i--; dest += p->next_plane) { if (bg & 1) if (fg & 1) *dest = 0xff; else *dest = ~d; else if (fg & 1) *dest = d; else *dest = 0x00; bg >>= 1; fg >>= 1; } } } else { /* Fast version */ c1 = s[0]; c2 = s[1]; c3 = s[2]; c4 = s[3]; dest = dest0; cdat1 = p->fontdata+c1*p->fontheight; cdat2 = p->fontdata+c2*p->fontheight; cdat3 = p->fontdata+c3*p->fontheight; cdat4 = p->fontdata+c4*p->fontheight; for (rows = p->fontheight; rows--;) { d = *cdat1++<<24 | *cdat2++<<16 | *cdat3++<<8 | *cdat4++; fg = fg0; bg = bg0; for (i = p->var.bits_per_pixel; i--; dest += p->next_plane) { if (bg & 1) if (fg & 1) *(u_long *)dest = 0xffffffff; else *(u_long *)dest = ~d; else if (fg & 1) *(u_long *)dest = d; else *(u_long *)dest = 0x00000000; bg >>= 1; fg >>= 1; } } s += 4; dest0 += 4; x += 4; count -= 3; } } static void rev_char_ilbm(struct display *p, int x, int y) { u_char *dest, *dest0; u_int rows, i; int mask; dest0 = p->screen_base+y*p->fontheight*p->next_line+x; mask = p->fgcol ^ p->bgcol; /* * This should really obey the individual character's * background and foreground colors instead of simply * inverting. */ for (i = p->var.bits_per_pixel; i--; dest0 += p->next_plane) { if (mask & 1) { dest = dest0; for (rows = p->fontheight; rows--; dest += p->next_line) *dest = ~*dest; } mask >>= 1; } } #endif /* CONFIG_FBCON_ILBM */ /* ====================================================================== */ #ifdef CONFIG_FBCON_PLANES /* * Color Planes */ static void bmove_plan(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { u_char *src, *dest, *src0, *dest0; u_int i, rows; if (sx == 0 && sy == 0 && width == p->next_line) { src = p->screen_base; dest = p->screen_base+dy*p->fontheight*width; for (i = p->var.bits_per_pixel; i--;) { mymemmove(dest, src, height*p->fontheight*width); src += p->next_plane; dest += p->next_plane; } } else if (dy <= sy) { src0 = p->screen_base+sy*p->fontheight*p->next_line+sx; dest0 = p->screen_base+dy*p->fontheight*p->next_line+dx; for (i = p->var.bits_per_pixel; i--;) { src = src0; dest = dest0; for (rows = height*p->fontheight; rows--;) { mymemmove(dest, src, width); src += p->next_line; dest += p->next_line; } src0 += p->next_plane; dest0 += p->next_plane; } } else { src0 = p->screen_base+(sy+height)*p->fontheight*p->next_line+sx; dest0 = p->screen_base+(dy+height)*p->fontheight*p->next_line+dx; for (i = p->var.bits_per_pixel; i--;) { src = src0; dest = dest0; for (rows = height*p->fontheight; rows--;) { src -= p->next_line; dest -= p->next_line; mymemmove(dest, src, width); } src0 += p->next_plane; dest0 += p->next_plane; } } } static void clear_plan(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { u_char *dest, *dest0; u_int i, rows; int bg; dest0 = p->screen_base+sy*p->fontheight*p->next_line+sx; bg = attr_bgcol_ec(p,conp); for (i = p->var.bits_per_pixel; i--; dest0 += p->next_plane) { dest = dest0; for (rows = height*p->fontheight; rows--; dest += p->next_line) if (bg & 1) mymemset(dest, width); else mymemclear(dest, width); bg >>= 1; } } static void putc_plan(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest, *dest0, *cdat, *cdat0; u_int rows, i; u_char d; int fg, bg; c &= 0xff; dest0 = p->screen_base+y*p->fontheight*p->next_line+x; cdat0 = p->fontdata+c*p->fontheight; fg = attr_fgcol(p,conp); bg = attr_bgcol(p,conp); for (i = p->var.bits_per_pixel; i--; dest0 += p->next_plane) { dest = dest0; cdat = cdat0; for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat++; if (bg & 1) if (fg & 1) *dest = 0xff; else *dest = ~d; else if (fg & 1) *dest = d; else *dest = 0x00; } bg >>= 1; fg >>= 1; } } /* * I split the console character loop in two parts * (cfr. fbcon_putcs_ilbm()) */ static void putcs_plan(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest, *dest0, *dest1; u_char *cdat1, *cdat2, *cdat3, *cdat4, *cdat10, *cdat20, *cdat30, *cdat40; u_int rows, i; u_char c1, c2, c3, c4; u_long d; int fg0, bg0, fg, bg; dest0 = p->screen_base+y*p->fontheight*p->next_line+x; fg0 = attr_fgcol(p,conp); bg0 = attr_bgcol(p,conp); while (count--) if (x&3 || count < 3) { /* Slow version */ c1 = *s++; dest1 = dest0++; x++; cdat10 = p->fontdata+c1*p->fontheight; fg = fg0; bg = bg0; for (i = p->var.bits_per_pixel; i--; dest1 += p->next_plane) { dest = dest1; cdat1 = cdat10; for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat1++; if (bg & 1) if (fg & 1) *dest = 0xff; else *dest = ~d; else if (fg & 1) *dest = d; else *dest = 0x00; } bg >>= 1; fg >>= 1; } } else { /* Fast version */ c1 = s[0]; c2 = s[1]; c3 = s[2]; c4 = s[3]; dest1 = dest0; cdat10 = p->fontdata+c1*p->fontheight; cdat20 = p->fontdata+c2*p->fontheight; cdat30 = p->fontdata+c3*p->fontheight; cdat40 = p->fontdata+c4*p->fontheight; fg = fg0; bg = bg0; for (i = p->var.bits_per_pixel; i--; dest1 += p->next_plane) { dest = dest1; cdat1 = cdat10; cdat2 = cdat20; cdat3 = cdat30; cdat4 = cdat40; for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat1++<<24 | *cdat2++<<16 | *cdat3++<<8 | *cdat4++; if (bg & 1) if (fg & 1) *(u_long *)dest = 0xffffffff; else *(u_long *)dest = ~d; else if (fg & 1) *(u_long *)dest = d; else *(u_long *)dest = 0x00000000; } bg >>= 1; fg >>= 1; } s += 4; dest0 += 4; x += 4; count -= 3; } } static void rev_char_plan(struct display *p, int x, int y) { u_char *dest, *dest0; u_int rows, i; int mask; dest0 = p->screen_base+y*p->fontheight*p->next_line+x; mask = p->fgcol ^ p->bgcol; /* * This should really obey the individual character's * background and foreground colors instead of simply * inverting. */ for (i = p->var.bits_per_pixel; i--; dest0 += p->next_plane) { if (mask & 1) { dest = dest0; for (rows = p->fontheight; rows--; dest += p->next_line) *dest = ~*dest; } mask >>= 1; } } #endif /* CONFIG_FBCON_PLANES */ /* ====================================================================== */ #ifdef CONFIG_FBCON_2PLANE /* * 2 Planes (2-bytes interleave) */ /* Increment/decrement 2 plane addresses */ #define INC_2P(p) do { if (!((long)(++(p)) & 1)) (p) += 2; } while(0) #define DEC_2P(p) do { if ((long)(--(p)) & 1) (p) -= 2; } while(0) /* Convert a standard 4 bit color to our 2 bit color assignment: * If at least two RGB channels are active, the low bit is turned on; * The intensity bit (b3) is shifted into b1. */ #define COLOR_2P(c) (((c & 7) >= 3 && (c & 7) != 4) | (c & 8) >> 2) static void bmove_2_plane(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { /* bmove() has to distinguish two major cases: If both, source and * destination, start at even addresses or both are at odd * addresses, just the first odd and last even column (if present) * require special treatment (memmove_col()). The rest between * then can be copied by normal operations, because all adjacent * bytes are affected and are to be stored in the same order. * The pathological case is when the move should go from an odd * address to an even or vice versa. Since the bytes in the plane * words must be assembled in new order, it seems wisest to make * all movements by memmove_col(). */ if (sx == 0 && dx == 0 && width == p->next_line/2) { /* Special (but often used) case: Moving whole lines can be * done with memmove() */ mymemmove(p->screen_base + dy * p->next_line * p->fontheight, p->screen_base + sy * p->next_line * p->fontheight, p->next_line * height * p->fontheight); } else { int rows, cols; u_char *src; u_char *dst; int bytes = p->next_line; int linesize = bytes * p->fontheight; u_int colsize = height * p->fontheight; u_int upwards = (dy < sy) || (dy == sy && dx < sx); if ((sx & 1) == (dx & 1)) { /* odd->odd or even->even */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); if (sx & 1) { memmove_2p_col(dst, src, colsize, bytes); src += 3; dst += 3; --width; } if (width > 1) { for(rows = colsize; rows > 0; --rows) { mymemmove(dst, src, (width>>1)*4); src += bytes; dst += bytes; } } if (width & 1) { src -= colsize * bytes; dst -= colsize * bytes; memmove_2p_col(dst + (width>>1)*4, src + (width>>1)*4, colsize, bytes); } } else { if (!((sx+width-1) & 1)) { src = p->screen_base + sy * linesize + ((sx+width-1)>>1)*4; dst = p->screen_base + dy * linesize + ((dx+width-1)>>1)*4; memmove_2p_col(dst, src, colsize, bytes); --width; } src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); if (width > 1) { src += colsize * bytes + (sx & 1)*3; dst += colsize * bytes + (sx & 1)*3; for(rows = colsize; rows > 0; --rows) { src -= bytes; dst -= bytes; mymemmove(dst, src, (width>>1)*4); } } if (width & 1) { memmove_2p_col(dst-3, src-3, colsize, bytes); } } } else { /* odd->even or even->odd */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_2p_col(dst, src, colsize, bytes); INC_2P(src); INC_2P(dst); } } else { sx += width-1; dx += width-1; src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_2p_col(dst, src, colsize, bytes); DEC_2P(src); DEC_2P(dst); } } } } } static void clear_2_plane(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { ulong offset; u_char *start; int rows; int bytes = p->next_line; int lines = height * p->fontheight; ulong size; u_long cval; u_short pcval; cval = expand2l (COLOR_2P (attr_bgcol_ec(p,conp))); if (sx == 0 && width == bytes/2) { offset = sy * bytes * p->fontheight; size = lines * bytes; memset_even_2p(p->screen_base+offset, size, cval); } else { offset = (sy * bytes * p->fontheight) + (sx>>1)*4 + (sx & 1); start = p->screen_base + offset; pcval = expand2w(COLOR_2P(attr_bgcol_ec(p,conp))); /* Clears are split if the region starts at an odd column or * end at an even column. These extra columns are spread * across the interleaved planes. All in between can be * cleared by normal mymemclear_small(), because both bytes of * the single plane words are affected. */ if (sx & 1) { memclear_2p_col(start, lines, pcval, bytes); start += 3; width--; } if (width & 1) { memclear_2p_col(start + (width>>1)*4, lines, pcval, bytes); width--; } if (width) { for(rows = lines; rows-- ; start += bytes) memset_even_2p(start, width*2, cval); } } } static void putc_2_plane(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest; u_char *cdat; int rows; int bytes = p->next_line; ulong eorx, fgx, bgx, fdx; c &= 0xff; dest = p->screen_base + y * p->fontheight * bytes + (x>>1)*4 + (x & 1); cdat = p->fontdata + (c * p->fontheight); fgx = expand2w(COLOR_2P(attr_fgcol(p,conp))); bgx = expand2w(COLOR_2P(attr_bgcol(p,conp))); eorx = fgx ^ bgx; for(rows = p->fontheight ; rows-- ; dest += bytes) { fdx = dup2w(*cdat++); __asm__ __volatile__ ("movepw %1,%0@(0)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx) ^ bgx)); } } static void putcs_2_plane(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest, *dest0; u_char *cdat, c; int rows; int bytes; ulong eorx, fgx, bgx, fdx; bytes = p->next_line; dest0 = p->screen_base + y * p->fontheight * bytes + (x>>1)*4 + (x & 1); fgx = expand2w(COLOR_2P(attr_fgcol(p,conp))); bgx = expand2w(COLOR_2P(attr_bgcol(p,conp))); eorx = fgx ^ bgx; while (count--) { c = *s++; cdat = p->fontdata + (c * p->fontheight); for(rows = p->fontheight, dest = dest0; rows-- ; dest += bytes) { fdx = dup2w(*cdat++); __asm__ __volatile__ ("movepw %1,%0@(0)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx) ^ bgx)); } INC_2P(dest0); } } static void rev_char_2_plane(struct display *p, int x, int y) { u_char *dest; int j; int bytes; dest = p->screen_base + y * p->fontheight * p->next_line + (x>>1)*4 + (x & 1); j = p->fontheight; bytes = p->next_line; while (j--) { /* This should really obey the individual character's * background and foreground colors instead of simply * inverting. */ dest[0] = ~dest[0]; dest[2] = ~dest[2]; dest += bytes; } } #endif /* CONFIG_FBCON_2PLANE */ /* ====================================================================== */ #ifdef CONFIG_FBCON_4PLANE /* * 4 Planes (2-bytes interleave) */ /* Increment/decrement 4 plane addresses */ #define INC_4P(p) do { if (!((long)(++(p)) & 1)) (p) += 6; } while(0) #define DEC_4P(p) do { if ((long)(--(p)) & 1) (p) -= 6; } while(0) static void bmove_4_plane(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { /* bmove() has to distinguish two major cases: If both, source and * destination, start at even addresses or both are at odd * addresses, just the first odd and last even column (if present) * require special treatment (memmove_col()). The rest between * then can be copied by normal operations, because all adjacent * bytes are affected and are to be stored in the same order. * The pathological case is when the move should go from an odd * address to an even or vice versa. Since the bytes in the plane * words must be assembled in new order, it seems wisest to make * all movements by memmove_col(). */ if (sx == 0 && dx == 0 && width == p->next_line/4) { /* Special (but often used) case: Moving whole lines can be * done with memmove() */ mymemmove(p->screen_base + dy * p->next_line * p->fontheight, p->screen_base + sy * p->next_line * p->fontheight, p->next_line * height * p->fontheight); } else { int rows, cols; u_char *src; u_char *dst; int bytes = p->next_line; int linesize = bytes * p->fontheight; u_int colsize = height * p->fontheight; u_int upwards = (dy < sy) || (dy == sy && dx < sx); if ((sx & 1) == (dx & 1)) { /* odd->odd or even->even */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*8 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*8 + (dx & 1); if (sx & 1) { memmove_4p_col(dst, src, colsize, bytes); src += 7; dst += 7; --width; } if (width > 1) { for(rows = colsize; rows > 0; --rows) { mymemmove(dst, src, (width>>1)*8); src += bytes; dst += bytes; } } if (width & 1) { src -= colsize * bytes; dst -= colsize * bytes; memmove_4p_col(dst + (width>>1)*8, src + (width>>1)*8, colsize, bytes); } } else { if (!((sx+width-1) & 1)) { src = p->screen_base + sy * linesize + ((sx+width-1)>>1)*8; dst = p->screen_base + dy * linesize + ((dx+width-1)>>1)*8; memmove_4p_col(dst, src, colsize, bytes); --width; } src = p->screen_base + sy * linesize + (sx>>1)*8 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*8 + (dx & 1); if (width > 1) { src += colsize * bytes + (sx & 1)*7; dst += colsize * bytes + (sx & 1)*7; for(rows = colsize; rows > 0; --rows) { src -= bytes; dst -= bytes; mymemmove(dst, src, (width>>1)*8); } } if (width & 1) { memmove_4p_col(dst-7, src-7, colsize, bytes); } } } else { /* odd->even or even->odd */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*8 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*8 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_4p_col(dst, src, colsize, bytes); INC_4P(src); INC_4P(dst); } } else { sx += width-1; dx += width-1; src = p->screen_base + sy * linesize + (sx>>1)*8 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*8 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_4p_col(dst, src, colsize, bytes); DEC_4P(src); DEC_4P(dst); } } } } } static void clear_4_plane(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { ulong offset; u_char *start; int rows; int bytes = p->next_line; int lines = height * p->fontheight; ulong size; u_long cval1, cval2, pcval; expand4dl(attr_bgcol_ec(p,conp), &cval1, &cval2); if (sx == 0 && width == bytes/4) { offset = sy * bytes * p->fontheight; size = lines * bytes; memset_even_4p(p->screen_base+offset, size, cval1, cval2); } else { offset = (sy * bytes * p->fontheight) + (sx>>1)*8 + (sx & 1); start = p->screen_base + offset; pcval = expand4l(attr_bgcol_ec(p,conp)); /* Clears are split if the region starts at an odd column or * end at an even column. These extra columns are spread * across the interleaved planes. All in between can be * cleared by normal mymemclear_small(), because both bytes of * the single plane words are affected. */ if (sx & 1) { memclear_4p_col(start, lines, pcval, bytes); start += 7; width--; } if (width & 1) { memclear_4p_col(start + (width>>1)*8, lines, pcval, bytes); width--; } if (width) { for(rows = lines; rows-- ; start += bytes) memset_even_4p(start, width*4, cval1, cval2); } } } static void putc_4_plane(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest; u_char *cdat; int rows; int bytes = p->next_line; ulong eorx, fgx, bgx, fdx; c &= 0xff; dest = p->screen_base + y * p->fontheight * bytes + (x>>1)*8 + (x & 1); cdat = p->fontdata + (c * p->fontheight); fgx = expand4l(attr_fgcol(p,conp)); bgx = expand4l(attr_bgcol(p,conp)); eorx = fgx ^ bgx; for(rows = p->fontheight ; rows-- ; dest += bytes) { fdx = dup4l(*cdat++); __asm__ __volatile__ ("movepl %1,%0@(0)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx) ^ bgx)); } } static void putcs_4_plane(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest, *dest0; u_char *cdat, c; int rows; int bytes; ulong eorx, fgx, bgx, fdx; bytes = p->next_line; dest0 = p->screen_base + y * p->fontheight * bytes + (x>>1)*8 + (x & 1); fgx = expand4l(attr_fgcol(p,conp)); bgx = expand4l(attr_bgcol(p,conp)); eorx = fgx ^ bgx; while (count--) { /* I think, unrolling the loops like in the 1 plane case isn't * practicable here, because the body is much longer for 4 * planes (mostly the dup4l()). I guess, unrolling this would * need more than 256 bytes and so exceed the instruction * cache :-( */ c = *s++; cdat = p->fontdata + (c * p->fontheight); for(rows = p->fontheight, dest = dest0; rows-- ; dest += bytes) { fdx = dup4l(*cdat++); __asm__ __volatile__ ("movepl %1,%0@(0)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx) ^ bgx)); } INC_4P(dest0); } } static void rev_char_4_plane(struct display *p, int x, int y) { u_char *dest; int j; int bytes; dest = p->screen_base + y * p->fontheight * p->next_line + (x>>1)*8 + (x & 1); j = p->fontheight; bytes = p->next_line; while (j--) { /* This should really obey the individual character's * background and foreground colors instead of simply * inverting. */ dest[0] = ~dest[0]; dest[2] = ~dest[2]; dest[4] = ~dest[4]; dest[6] = ~dest[6]; dest += bytes; } } #endif /* CONFIG_FBCON_4PLANE */ /* ====================================================================== */ #ifdef CONFIG_FBCON_8PLANE /* * 8 Planes (2-bytes interleave) */ /* In 8 plane mode, 256 colors would be possible, but only the first * 16 are used by the console code (the upper 4 bits are * background/unused). For that, the following functions mask off the * higher 4 bits of each color. */ /* Increment/decrement 8 plane addresses */ #define INC_8P(p) do { if (!((long)(++(p)) & 1)) (p) += 14; } while(0) #define DEC_8P(p) do { if ((long)(--(p)) & 1) (p) -= 14; } while(0) static void bmove_8_plane(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { /* bmove() has to distinguish two major cases: If both, source and * destination, start at even addresses or both are at odd * addresses, just the first odd and last even column (if present) * require special treatment (memmove_col()). The rest between * then can be copied by normal operations, because all adjacent * bytes are affected and are to be stored in the same order. * The pathological case is when the move should go from an odd * address to an even or vice versa. Since the bytes in the plane * words must be assembled in new order, it seems wisest to make * all movements by memmove_col(). */ if (sx == 0 && dx == 0 && width == p->next_line/8) { /* Special (but often used) case: Moving whole lines can be * done with memmove() */ fast_memmove (p->screen_base + dy * p->next_line * p->fontheight, p->screen_base + sy * p->next_line * p->fontheight, p->next_line * height * p->fontheight); } else { int rows, cols; u_char *src; u_char *dst; int bytes = p->next_line; int linesize = bytes * p->fontheight; u_int colsize = height * p->fontheight; u_int upwards = (dy < sy) || (dy == sy && dx < sx); if ((sx & 1) == (dx & 1)) { /* odd->odd or even->even */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*16 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*16 + (dx & 1); if (sx & 1) { memmove_8p_col(dst, src, colsize, bytes); src += 15; dst += 15; --width; } if (width > 1) { for(rows = colsize; rows > 0; --rows) { fast_memmove (dst, src, (width >> 1) * 16); src += bytes; dst += bytes; } } if (width & 1) { src -= colsize * bytes; dst -= colsize * bytes; memmove_8p_col(dst + (width>>1)*16, src + (width>>1)*16, colsize, bytes); } } else { if (!((sx+width-1) & 1)) { src = p->screen_base + sy * linesize + ((sx+width-1)>>1)*16; dst = p->screen_base + dy * linesize + ((dx+width-1)>>1)*16; memmove_8p_col(dst, src, colsize, bytes); --width; } src = p->screen_base + sy * linesize + (sx>>1)*16 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*16 + (dx & 1); if (width > 1) { src += colsize * bytes + (sx & 1)*15; dst += colsize * bytes + (sx & 1)*15; for(rows = colsize; rows > 0; --rows) { src -= bytes; dst -= bytes; fast_memmove (dst, src, (width>>1)*16); } } if (width & 1) { memmove_8p_col(dst-15, src-15, colsize, bytes); } } } else { /* odd->even or even->odd */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*16 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*16 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_8p_col(dst, src, colsize, bytes); INC_8P(src); INC_8P(dst); } } else { sx += width-1; dx += width-1; src = p->screen_base + sy * linesize + (sx>>1)*16 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*16 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_8p_col(dst, src, colsize, bytes); DEC_8P(src); DEC_8P(dst); } } } } } static void clear_8_plane(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { ulong offset; u_char *start; int rows; int bytes = p->next_line; int lines = height * p->fontheight; ulong size; u_long cval1, cval2, cval3, cval4, pcval1, pcval2; expand8ql(attr_bgcol_ec(p,conp), cval1, cval2, cval3, cval4); if (sx == 0 && width == bytes/8) { offset = sy * bytes * p->fontheight; size = lines * bytes; memset_even_8p(p->screen_base+offset, size, cval1, cval2, cval3, cval4); } else { offset = (sy * bytes * p->fontheight) + (sx>>1)*16 + (sx & 1); start = p->screen_base + offset; expand8dl(attr_bgcol_ec(p,conp), &pcval1, &pcval2); /* Clears are split if the region starts at an odd column or * end at an even column. These extra columns are spread * across the interleaved planes. All in between can be * cleared by normal mymemclear_small(), because both bytes of * the single plane words are affected. */ if (sx & 1) { memclear_8p_col(start, lines, pcval1, pcval2, bytes); start += 7; width--; } if (width & 1) { memclear_8p_col(start + (width>>1)*16, lines, pcval1, pcval2, bytes); width--; } if (width) { for(rows = lines; rows-- ; start += bytes) memset_even_8p(start, width*8, cval1, cval2, cval3, cval4); } } } static void putc_8_plane(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest; u_char *cdat; int rows; int bytes = p->next_line; ulong eorx1, eorx2, fgx1, fgx2, bgx1, bgx2, fdx; c &= 0xff; dest = p->screen_base + y * p->fontheight * bytes + (x>>1)*16 + (x & 1); cdat = p->fontdata + (c * p->fontheight); expand8dl(attr_fgcol(p,conp), &fgx1, &fgx2); expand8dl(attr_bgcol(p,conp), &bgx1, &bgx2); eorx1 = fgx1 ^ bgx1; eorx2 = fgx2 ^ bgx2; for(rows = p->fontheight ; rows-- ; dest += bytes) { fdx = dup4l(*cdat++); __asm__ __volatile__ ("movepl %1,%0@(0)\n\t" "movepl %2,%0@(8)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx1) ^ bgx1), "d" ((fdx & eorx2) ^ bgx2) ); } } static void putcs_8_plane(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest, *dest0; u_char *cdat, c; int rows; int bytes; ulong eorx1, eorx2, fgx1, fgx2, bgx1, bgx2, fdx; bytes = p->next_line; dest0 = p->screen_base + y * p->fontheight * bytes + (x>>1)*16 + (x & 1); expand8dl(attr_fgcol(p,conp), &fgx1, &fgx2); expand8dl(attr_bgcol(p,conp), &bgx1, &bgx2); eorx1 = fgx1 ^ bgx1; eorx2 = fgx2 ^ bgx2; while (count--) { /* I think, unrolling the loops like in the 1 plane case isn't * practicable here, because the body is much longer for 4 * planes (mostly the dup4l()). I guess, unrolling this would * need more than 256 bytes and so exceed the instruction * cache :-( */ c = *s++; cdat = p->fontdata + (c * p->fontheight); for(rows = p->fontheight, dest = dest0; rows-- ; dest += bytes) { fdx = dup4l(*cdat++); __asm__ __volatile__ ("movepl %1,%0@(0)\n\t" "movepl %2,%0@(8)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx1) ^ bgx1), "d" ((fdx & eorx2) ^ bgx2) ); } INC_8P(dest0); } } static void rev_char_8_plane(struct display *p, int x, int y) { u_char *dest; int j; int bytes; dest = p->screen_base + y * p->fontheight * p->next_line + (x>>1)*16 + (x & 1); j = p->fontheight; bytes = p->next_line; while (j--) { /* This should really obey the individual character's * background and foreground colors instead of simply * inverting. For 8 plane mode, only the lower 4 bits of the * color are inverted, because only that color registers have * been set up. */ dest[0] = ~dest[0]; dest[2] = ~dest[2]; dest[4] = ~dest[4]; dest[6] = ~dest[6]; dest += bytes; } } #endif /* CONFIG_FBCON_8PLANE */ /* ====================================================================== */ #ifdef CONFIG_FBCON_8PACKED /* * 8 bpp Packed Pixels */ static u_long nibbletab_8_packed[]={ 0x00000000,0x000000ff,0x0000ff00,0x0000ffff, 0x00ff0000,0x00ff00ff,0x00ffff00,0x00ffffff, 0xff000000,0xff0000ff,0xff00ff00,0xff00ffff, 0xffff0000,0xffff00ff,0xffffff00,0xffffffff}; static void bmove_8_packed(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { int bytes = p->next_line, linesize = bytes * p->fontheight, rows; u_char *src,*dst; if (sx == 0 && dx == 0 && width * 8 == bytes) { mymemmove(p->screen_base + dy * linesize, p->screen_base + sy * linesize, height * linesize); } else { if (dy < sy || (dy == sy && dx < sx)) { src = p->screen_base + sy * linesize + sx * 8; dst = p->screen_base + dy * linesize + dx * 8; for (rows = height * p->fontheight ; rows-- ;) { mymemmove(dst, src, width * 8); src += bytes; dst += bytes; } } else { src = p->screen_base + (sy+height) * linesize + sx * 8 - bytes; dst = p->screen_base + (dy+height) * linesize + dx * 8 - bytes; for (rows = height * p->fontheight ; rows-- ;) { mymemmove(dst, src, width * 8); src -= bytes; dst -= bytes; } } } } static void clear_8_packed(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { u_char *dest0,*dest; int bytes=p->next_line,lines=height * p->fontheight, rows, i; u_long bgx; dest = p->screen_base + sy * p->fontheight * bytes + sx * 8; bgx=attr_bgcol_ec(p,conp); bgx |= (bgx << 8); bgx |= (bgx << 16); if (sx == 0 && width * 8 == bytes) { for (i = 0 ; i < lines * width ; i++) { ((u_long *)dest)[0]=bgx; ((u_long *)dest)[1]=bgx; dest+=8; } } else { dest0=dest; for (rows = lines; rows-- ; dest0 += bytes) { dest=dest0; for (i = 0 ; i < width ; i++) { ((u_long *)dest)[0]=bgx; ((u_long *)dest)[1]=bgx; dest+=8; } } } } static void putc_8_packed(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest,*cdat; int bytes=p->next_line,rows; ulong eorx,fgx,bgx; c &= 0xff; dest = p->screen_base + y * p->fontheight * bytes + x * 8; cdat = p->fontdata + c * p->fontheight; fgx=attr_fgcol(p,conp); bgx=attr_bgcol(p,conp); fgx |= (fgx << 8); fgx |= (fgx << 16); bgx |= (bgx << 8); bgx |= (bgx << 16); eorx = fgx ^ bgx; for (rows = p->fontheight ; rows-- ; dest += bytes) { ((u_long *)dest)[0]= (nibbletab_8_packed[*cdat >> 4] & eorx) ^ bgx; ((u_long *)dest)[1]= (nibbletab_8_packed[*cdat++ & 0xf] & eorx) ^ bgx; } } static void putcs_8_packed(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *cdat, c, *dest, *dest0; int rows,bytes=p->next_line; u_long eorx, fgx, bgx; dest0 = p->screen_base + y * p->fontheight * bytes + x * 8; fgx=attr_fgcol(p,conp); bgx=attr_bgcol(p,conp); fgx |= (fgx << 8); fgx |= (fgx << 16); bgx |= (bgx << 8); bgx |= (bgx << 16); eorx = fgx ^ bgx; while (count--) { c = *s++; cdat = p->fontdata + c * p->fontheight; for (rows = p->fontheight, dest = dest0; rows-- ; dest += bytes) { ((u_long *)dest)[0]= (nibbletab_8_packed[*cdat >> 4] & eorx) ^ bgx; ((u_long *)dest)[1]= (nibbletab_8_packed[*cdat++ & 0xf] & eorx) ^ bgx; } dest0+=8; } } static void rev_char_8_packed(struct display *p, int x, int y) { u_char *dest; int bytes=p->next_line, rows; dest = p->screen_base + y * p->fontheight * bytes + x * 8; for (rows = p->fontheight ; rows-- ; dest += bytes) { ((u_long *)dest)[0] ^= 0x0f0f0f0f; ((u_long *)dest)[1] ^= 0x0f0f0f0f; } } #endif /* CONFIG_FBCON_8PACKED */ /* ====================================================================== */ #ifdef CONFIG_FBCON_16PACKED /* * 16 bpp Packed Pixels */ u_short packed16_cmap[16]; static u_long tab_16_packed[]={ 0x00000000,0x0000ffff,0xffff0000,0xffffffff}; static void bmove_16_packed(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { int bytes = p->next_line, linesize = bytes * p->fontheight, rows; u_char *src,*dst; if (sx == 0 && dx == 0 && width * 16 == bytes) { mymemmove(p->screen_base + dy * linesize, p->screen_base + sy * linesize, height * linesize); } else { if (dy < sy || (dy == sy && dx < sx)) { src = p->screen_base + sy * linesize + sx * 16; dst = p->screen_base + dy * linesize + dx * 16; for (rows = height * p->fontheight ; rows-- ;) { mymemmove(dst, src, width * 16); src += bytes; dst += bytes; } } else { src = p->screen_base + (sy+height) * linesize + sx * 16 - bytes; dst = p->screen_base + (dy+height) * linesize + dx * 16 - bytes; for (rows = height * p->fontheight ; rows-- ;) { mymemmove(dst, src, width * 16); src -= bytes; dst -= bytes; } } } } static void clear_16_packed(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { u_char *dest0,*dest; int bytes=p->next_line,lines=height * p->fontheight, rows, i; u_long bgx; dest = p->screen_base + sy * p->fontheight * bytes + sx * 16; bgx = attr_bgcol_ec(p,conp); bgx = packed16_cmap[bgx]; bgx |= (bgx << 16); if (sx == 0 && width * 16 == bytes) { for (i = 0 ; i < lines * width ; i++) { ((u_long *)dest)[0]=bgx; ((u_long *)dest)[1]=bgx; ((u_long *)dest)[2]=bgx; ((u_long *)dest)[3]=bgx; dest+=16; } } else { dest0=dest; for (rows = lines; rows-- ; dest0 += bytes) { dest=dest0; for (i = 0 ; i < width ; i++) { ((u_long *)dest)[0]=bgx; ((u_long *)dest)[1]=bgx; ((u_long *)dest)[2]=bgx; ((u_long *)dest)[3]=bgx; dest+=16; } } } } static void putc_16_packed(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest,*cdat; int bytes=p->next_line,rows; ulong eorx,fgx,bgx; c &= 0xff; dest = p->screen_base + y * p->fontheight * bytes + x * 16; cdat = p->fontdata + c * p->fontheight; fgx = attr_fgcol(p,conp); fgx = packed16_cmap[fgx]; bgx = attr_bgcol(p,conp); bgx = packed16_cmap[bgx]; fgx |= (fgx << 16); bgx |= (bgx << 16); eorx = fgx ^ bgx; for (rows = p->fontheight ; rows-- ; dest += bytes) { ((u_long *)dest)[0]= (tab_16_packed[*cdat >> 6] & eorx) ^ bgx; ((u_long *)dest)[1]= (tab_16_packed[*cdat >> 4 & 0x3] & eorx) ^ bgx; ((u_long *)dest)[2]= (tab_16_packed[*cdat >> 2 & 0x3] & eorx) ^ bgx; ((u_long *)dest)[3]= (tab_16_packed[*cdat++ & 0x3] & eorx) ^ bgx; } } /* TODO */ static void putcs_16_packed(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *cdat, c, *dest, *dest0; int rows,bytes=p->next_line; u_long eorx, fgx, bgx; dest0 = p->screen_base + y * p->fontheight * bytes + x * 16; fgx = attr_fgcol(p,conp); fgx = packed16_cmap[fgx]; bgx = attr_bgcol(p,conp); bgx = packed16_cmap[bgx]; fgx |= (fgx << 16); bgx |= (bgx << 16); eorx = fgx ^ bgx; while (count--) { c = *s++; cdat = p->fontdata + c * p->fontheight; for (rows = p->fontheight, dest = dest0; rows-- ; dest += bytes) { ((u_long *)dest)[0]= (tab_16_packed[*cdat >> 6] & eorx) ^ bgx; ((u_long *)dest)[1]= (tab_16_packed[*cdat >> 4 & 0x3] & eorx) ^ bgx; ((u_long *)dest)[2]= (tab_16_packed[*cdat >> 2 & 0x3] & eorx) ^ bgx; ((u_long *)dest)[3]= (tab_16_packed[*cdat++ & 0x3] & eorx) ^ bgx; } dest0+=16; } } static void rev_char_16_packed(struct display *p, int x, int y) { u_char *dest; int bytes=p->next_line, rows; dest = p->screen_base + y * p->fontheight * bytes + x * 16; for (rows = p->fontheight ; rows-- ; dest += bytes) { ((u_long *)dest)[0] ^= 0xffffffff; ((u_long *)dest)[1] ^= 0xffffffff; ((u_long *)dest)[2] ^= 0xffffffff; ((u_long *)dest)[3] ^= 0xffffffff; } } #endif /* CONFIG_FBCON_16PACKED */ /* ====================================================================== */ #ifdef CONFIG_FBCON_CYBER /* * Cybervision (accelerated) */ static void bmove_cyber(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { sx *= 8; dx *= 8; width *= 8; Cyber_BitBLT((u_short)sx, (u_short)(sy*p->fontheight), (u_short)dx, (u_short)(dy*p->fontheight), (u_short)width, (u_short)(height*p->fontheight), (u_short)S3_NEW); } static void clear_cyber(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { u_char bg; sx *= 8; width *= 8; bg = attr_bgcol_ec(p,conp); Cyber_RectFill((u_short)sx, (u_short)(sy*p->fontheight), (u_short)width, (u_short)(height*p->fontheight), (u_short)S3_NEW, (u_short)bg); } static void putc_cyber(struct vc_data *conp, struct display *p, int c, int y, int x) { u_char *dest, *cdat; u_long tmp; u_int rows, reverse, underline; u_char d; u_char fg, bg; c &= 0xff; dest = p->screen_base+y*p->fontheight*p->next_line+8*x; cdat = p->fontdata+(c*p->fontheight); fg = disp->fgcol; bg = disp->bgcol; reverse = conp->vc_reverse; underline = conp->vc_underline; Cyber_WaitBlit(); for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat++; if (underline && !rows) d = 0xff; if (reverse) d = ~d; tmp = ((d & 0x80) ? fg : bg) << 24; tmp |= ((d & 0x40) ? fg : bg) << 16; tmp |= ((d & 0x20) ? fg : bg) << 8; tmp |= ((d & 0x10) ? fg : bg); *((u_long*) dest) = tmp; tmp = ((d & 0x8) ? fg : bg) << 24; tmp |= ((d & 0x4) ? fg : bg) << 16; tmp |= ((d & 0x2) ? fg : bg) << 8; tmp |= ((d & 0x1) ? fg : bg); *((u_long*) dest + 1) = tmp; } } static void putcs_cyber(struct vc_data *conp, struct display *p, const char *s, int count, int y, int x) { u_char *dest, *dest0, *cdat; u_long tmp; u_int rows, reverse, underline; u_char c, d; u_char fg, bg; dest0 = p->screen_base+y*p->fontheight*p->next_line+8*x; fg = disp->fgcol; bg = disp->bgcol; reverse = conp->vc_reverse; underline = conp->vc_underline; Cyber_WaitBlit(); while (count--) { c = *s++; dest = dest0; dest0 += 8; cdat = p->fontdata+(c*p->fontheight); for (rows = p->fontheight; rows--; dest += p->next_line) { d = *cdat++; if (underline && !rows) d = 0xff; if (reverse) d = ~d; tmp = ((d & 0x80) ? fg : bg) << 24; tmp |= ((d & 0x40) ? fg : bg) << 16; tmp |= ((d & 0x20) ? fg : bg) << 8; tmp |= ((d & 0x10) ? fg : bg); *((u_long*) dest) = tmp; tmp = ((d & 0x8) ? fg : bg) << 24; tmp |= ((d & 0x4) ? fg : bg) << 16; tmp |= ((d & 0x2) ? fg : bg) << 8; tmp |= ((d & 0x1) ? fg : bg); *((u_long*) dest + 1) = tmp; } } } static void rev_char_cyber(struct display *p, int x, int y) { u_char *dest; u_int rows; u_char fg, bg; fg = disp->fgcol; bg = disp->bgcol; dest = p->screen_base+y*p->fontheight*p->next_line+8*x; Cyber_WaitBlit(); for (rows = p->fontheight; rows--; dest += p->next_line) { *dest = (*dest == fg) ? bg : fg; *(dest+1) = (*(dest + 1) == fg) ? bg : fg; *(dest+2) = (*(dest + 2) == fg) ? bg : fg; *(dest+3) = (*(dest + 3) == fg) ? bg : fg; *(dest+4) = (*(dest + 4) == fg) ? bg : fg; *(dest+5) = (*(dest + 5) == fg) ? bg : fg; *(dest+6) = (*(dest + 6) == fg) ? bg : fg; *(dest+7) = (*(dest + 7) == fg) ? bg : fg; } } #endif /* CONFIG_FBCON_CYBER */ /* ====================================================================== */ /* * The console `switch' structure for the frame buffer based console */ struct consw fb_con = { fbcon_startup, fbcon_init, fbcon_deinit, fbcon_clear, fbcon_putc, fbcon_putcs, fbcon_cursor, fbcon_scroll, fbcon_bmove, fbcon_switch, fbcon_blank, fbcon_get_font, fbcon_set_font };
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