/* $NetBSD: ite_cc.c,v 1.38 2012/10/27 17:17:42 chs Exp $ */ /* * Copyright (c) 1996 Leo Weppelman * Copyright (c) 1994 Christian E. Hopps * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Christian E. Hopps. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include __KERNEL_RCSID(0, "$NetBSD: ite_cc.c,v 1.38 2012/10/27 17:17:42 chs Exp $"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "grfcc.h" /* * This is what ip->priv points to; * it contains local variables for custom-chip ites. */ struct ite_priv { u_char **row_ptr; /* array of pointers into the bitmap */ u_long row_bytes; u_long cursor_opt; u_short *column_offset; /* array of offsets for columns */ u_int row_offset; /* the row offset */ u_short width; /* the bitmap width */ u_short underline; /* where the underline goes */ u_short ft_x; /* the font width */ u_short ft_y; /* the font height */ u_char *font_cell[256];/* the font pointer */ }; typedef struct ite_priv ipriv_t; /* * We need the following space to get an ite-console setup before * the VM-system is brought up. We setup for a 1280x960 monitor with * an 8x8 font. */ #define CONS_MAXROW 120 /* Max. number of rows on console */ #define CONS_MAXCOL 160 /* Max. number of columns on console */ static u_short con_columns[CONS_MAXCOL]; static u_char *con_rows[CONS_MAXROW]; static ipriv_t con_ipriv; extern font_info font_info_8x8; extern font_info font_info_8x16; static void view_init(struct ite_softc *); static void view_deinit(struct ite_softc *); static int itecc_ioctl(struct ite_softc *, u_long, void *, int, struct lwp *); static int ite_newsize(struct ite_softc *, struct itewinsize *); static void cursor32(struct ite_softc *, int); static void putc8(struct ite_softc *, int, int, int, int); static void clear8(struct ite_softc *, int, int, int, int); static void scroll8(struct ite_softc *, int, int, int, int); static void scrollbmap(bmap_t *, u_short, u_short, u_short, u_short, short, short); /* * grfcc config stuff */ void grfccattach(device_t, device_t, void *); int grfccmatch(device_t, cfdata_t, void *); int grfccprint(void *, const char *); CFATTACH_DECL_NEW(grfcc, sizeof(struct grf_softc), grfccmatch, grfccattach, NULL, NULL); /* * only used in console init. */ static struct cfdata *cfdata_grf = NULL; /* * Probe functions we can use: */ #ifdef TT_VIDEO void tt_probe_video(MODES *); #endif /* TT_VIDEO */ #ifdef FALCON_VIDEO void falcon_probe_video(MODES *); #endif /* FALCON_VIDEO */ int grfccmatch(device_t parent, cfdata_t cf, void *aux) { static int did_consinit = 0; static int must_probe = 1; grf_auxp_t *grf_auxp = aux; extern const struct cdevsw view_cdevsw; if (must_probe) { /* * Check if the layers we depend on exist */ if (!(machineid & (ATARI_TT|ATARI_FALCON))) return 0; #ifdef TT_VIDEO if ((machineid & ATARI_TT) && !grfabs_probe(&tt_probe_video)) return 0; #endif /* TT_VIDEO */ #ifdef FALCON_VIDEO if ((machineid & ATARI_FALCON) && !grfabs_probe(&falcon_probe_video)) return 0; #endif /* FALCON_VIDEO */ viewprobe(); must_probe = 0; } if (atari_realconfig == 0) { /* * Early console init. Only match first unit. */ if (did_consinit) return 0; if ((*view_cdevsw.d_open)(cf->cf_unit, 0, 0, NULL)) return 0; cfdata_grf = cf; did_consinit = 1; return 1; } /* * Normal config. When we are called directly from the grfbus, * we only match the first unit. The attach function will call us for * the other configured units. */ if (grf_auxp->from_bus_match && (did_consinit > 1)) return 0; if (!grf_auxp->from_bus_match && (grf_auxp->unit != cf->cf_unit)) return 0; /* * Final constraint: each grf needs a view.... */ if ((cfdata_grf == NULL) || (did_consinit > 1)) { if ((*view_cdevsw.d_open)(cf->cf_unit, 0, 0, NULL)) return 0; } did_consinit = 2; return 1; } /* * attach: initialize the grf-structure and try to attach an ite to us. * note : self is NULL during early console init. */ void grfccattach(device_t parent, device_t self, void *aux) { static struct grf_softc congrf; static int first_attach = 1; grf_auxp_t *grf_bus_auxp = aux; grf_auxp_t grf_auxp; struct grf_softc *sc; int maj; extern const struct cdevsw grf_cdevsw; /* * find our major device number */ maj = cdevsw_lookup_major(&grf_cdevsw); /* * Handle exception case: early console init */ if (self == NULL) { struct device itedev; memset(&itedev, 0, sizeof(itedev)); itedev.dv_private = &congrf; congrf.g_unit = cfdata_grf->cf_unit; congrf.g_grfdev = makedev(maj, congrf.g_unit); congrf.g_itedev = (dev_t)-1; congrf.g_flags = GF_ALIVE; congrf.g_mode = grf_mode; congrf.g_conpri = grfcc_cnprobe(); congrf.g_viewdev = congrf.g_unit; grfcc_iteinit(&congrf); grf_viewsync(&congrf); /* Attach console ite */ atari_config_found(cfdata_grf, &itedev, &congrf, grfccprint); return; } sc = device_private(self); sc->g_device = self; sc->g_unit = device_unit(self); grfsp[sc->g_unit] = sc; if ((cfdata_grf != NULL) && (sc->g_unit == congrf.g_unit)) { /* * We inited earlier just copy the info, take care * not to copy the device struct though. */ memcpy(&sc->g_display, &congrf.g_display, (char *)&sc[1] - (char *)&sc->g_display); } else { sc->g_grfdev = makedev(maj, sc->g_unit); sc->g_itedev = (dev_t)-1; sc->g_flags = GF_ALIVE; sc->g_mode = grf_mode; sc->g_conpri = 0; sc->g_viewdev = sc->g_unit; grfcc_iteinit(sc); grf_viewsync(sc); } printf(": width %d height %d", sc->g_display.gd_dwidth, sc->g_display.gd_dheight); if (sc->g_display.gd_colors == 2) printf(" monochrome\n"); else printf(" colors %d\n", sc->g_display.gd_colors); /* * try and attach an ite */ config_found(self, sc /* XXX */, grfccprint); /* * If attaching the first unit, go ahead and 'find' the rest of us */ if (first_attach) { first_attach = 0; grf_auxp.from_bus_match = 0; for (grf_auxp.unit=1; grf_auxp.unit < NGRFCC; grf_auxp.unit++) { config_found(parent, &grf_auxp, grf_bus_auxp->busprint); } } } int grfccprint(void *aux, const char *pnp) { if (pnp) aprint_normal("ite at %s", pnp); return UNCONF; } /* * called from grf_cc to return console priority */ int grfcc_cnprobe(void) { return CN_INTERNAL; } /* * called from grf_cc to init ite portion of * grf_softc struct */ void grfcc_iteinit(struct grf_softc *sc) { sc->g_itecursor = cursor32; sc->g_iteputc = putc8; sc->g_iteclear = clear8; sc->g_itescroll = scroll8; sc->g_iteinit = view_init; sc->g_itedeinit = view_deinit; } static void view_deinit(struct ite_softc *ip) { ip->flags &= ~ITE_INITED; } static void view_init(register struct ite_softc *ip) { struct itewinsize wsz; ipriv_t *cci; if ((cci = ip->priv) != NULL) return; ip->itexx_ioctl = itecc_ioctl; #if defined(KFONT_8X8) ip->font = font_info_8x8; #else ip->font = font_info_8x16; #endif /* Find the correct set of rendering routines for this font. */ if (ip->font.width != 8) panic("kernel font size not supported"); if (!atari_realconfig) ip->priv = cci = &con_ipriv; else ip->priv = cci = malloc(sizeof(*cci), M_DEVBUF, M_WAITOK); if (cci == NULL) panic("No memory for ite-view"); memset(cci, 0, sizeof(*cci)); cci->cursor_opt = 0; cci->row_ptr = NULL; cci->column_offset = NULL; wsz.x = ite_default_x; wsz.y = ite_default_y; wsz.width = ite_default_width; wsz.height = ite_default_height; wsz.depth = ite_default_depth; ite_newsize (ip, &wsz); /* * Only console will be turned on by default.. */ if (ip->flags & ITE_ISCONS) ip->grf->g_mode(ip->grf, GM_GRFON, NULL, 0, 0); } static int ite_newsize(struct ite_softc *ip, struct itewinsize *winsz) { struct view_size vs; ipriv_t *cci = ip->priv; u_long i, j; int error = 0; view_t *view; extern const struct cdevsw view_cdevsw; vs.x = winsz->x; vs.y = winsz->y; vs.width = winsz->width; vs.height = winsz->height; vs.depth = winsz->depth; error = (*view_cdevsw.d_ioctl)(ip->grf->g_viewdev, VIOCSSIZE, (void *)&vs, 0, NOLWP); view = viewview(ip->grf->g_viewdev); /* * Reinitialize our structs */ ip->cols = view->display.width / ip->font.width; ip->rows = view->display.height / ip->font.height; /* * save new values so that future opens use them * this may not be correct when we implement Virtual Consoles */ ite_default_height = view->display.height; ite_default_width = view->display.width; ite_default_x = view->display.x; ite_default_y = view->display.y; ite_default_depth = view->bitmap->depth; if (cci->row_ptr && (cci->row_ptr != con_rows)) { free(cci->row_ptr, M_DEVBUF); cci->row_ptr = NULL; } if (cci->column_offset && (cci->column_offset != con_columns)) { free(cci->column_offset, M_DEVBUF); cci->column_offset = NULL; } if (!atari_realconfig) { cci->row_ptr = con_rows; cci->column_offset = con_columns; } else { cci->row_ptr = malloc(sizeof(u_char *) * ip->rows, M_DEVBUF, M_NOWAIT); cci->column_offset = malloc(sizeof(u_int) * ip->cols, M_DEVBUF, M_NOWAIT); } if (!cci->row_ptr || !cci->column_offset) panic("No memory for ite-view"); cci->width = view->bitmap->bytes_per_row << 3; cci->underline = ip->font.baseline + 1; cci->row_offset = view->bitmap->bytes_per_row; cci->ft_x = ip->font.width; cci->ft_y = ip->font.height; cci->row_bytes = cci->row_offset * cci->ft_y; cci->row_ptr[0] = view->bitmap->plane; for (i = 1; i < ip->rows; i++) cci->row_ptr[i] = cci->row_ptr[i - 1] + cci->row_bytes; /* * Initialize the column offsets to point at the correct location * in the first plane. This definitely assumes a font width of 8! */ j = view->bitmap->depth * 2; cci->column_offset[0] = 0; for (i = 1; i < ip->cols; i++) cci->column_offset[i] = ((i >> 1) * j) + (i & 1); /* initialize the font cell pointers */ cci->font_cell[ip->font.font_lo] = ip->font.font_p; for (i = ip->font.font_lo + 1; i <= ip->font.font_hi; i++) cci->font_cell[i] = cci->font_cell[i - 1] + ip->font.height; return error; } int itecc_ioctl(struct ite_softc *ip, u_long cmd, void * addr, int flag, struct lwp *l) { struct winsize ws; struct itewinsize *is; int error = 0; view_t *view = viewview(ip->grf->g_viewdev); extern const struct cdevsw ite_cdevsw; extern const struct cdevsw view_cdevsw; switch (cmd) { case ITEIOCSWINSZ: is = (struct itewinsize *)addr; if (ite_newsize(ip, is)) error = ENOMEM; else { view = viewview(ip->grf->g_viewdev); ws.ws_row = ip->rows; ws.ws_col = ip->cols; ws.ws_xpixel = view->display.width; ws.ws_ypixel = view->display.height; ite_reset(ip); /* * XXX tell tty about the change * XXX this is messy, but works */ (*ite_cdevsw.d_ioctl)(ip->grf->g_itedev, TIOCSWINSZ, (void *)&ws, 0, l); } break; case VIOCSCMAP: case VIOCGCMAP: /* * XXX watchout for that NOLWP. its not really the kernel * XXX talking these two commands don't use the proc pointer * XXX though. */ error = (*view_cdevsw.d_ioctl)(ip->grf->g_viewdev, cmd, addr, flag, NOLWP); break; default: error = EPASSTHROUGH; break; } return error; } static void cursor32(struct ite_softc *ip, int flag) { int cend; u_char *pl; ipriv_t *cci; cci = ip->priv; if (flag == END_CURSOROPT) cci->cursor_opt--; else if (flag == START_CURSOROPT) { if (!cci->cursor_opt) cursor32(ip, ERASE_CURSOR); cci->cursor_opt++; return; /* if we are already opted. */ } if (cci->cursor_opt) return; /* if we are still nested. */ /* else we draw the cursor. */ if (flag != DRAW_CURSOR && flag != END_CURSOROPT) { /* * erase the cursor */ cend = ip->font.height - 1; pl = cci->column_offset[ip->cursorx] + cci->row_ptr[ip->cursory]; __asm volatile ("1: notb %0@ ; addaw %4,%0\n\t" "dbra %1,1b" : "=a" (pl), "=d" (cend) : "0" (pl), "1" (cend), "d" (cci->row_offset) ); } if (flag != DRAW_CURSOR && flag != MOVE_CURSOR && flag != END_CURSOROPT) return; /* * draw the cursor */ cend = min(ip->curx, ip->cols - 1); if (flag == DRAW_CURSOR && ip->cursorx == cend && ip->cursory == ip->cury) return; ip->cursorx = cend; ip->cursory = ip->cury; cend = ip->font.height - 1; pl = cci->column_offset[ip->cursorx] + cci->row_ptr[ip->cursory]; __asm volatile ("1: notb %0@ ; addaw %4,%0\n\t" "dbra %1,1b" : "=a" (pl), "=d" (cend) : "0" (pl), "1" (cend), "d" (cci->row_offset) ); } static void putc8(struct ite_softc *ip, int c, int dy, int dx, int mode) { ipriv_t *cci = (ipriv_t *)ip->priv; u_char *pl = cci->column_offset[dx] + cci->row_ptr[dy]; u_int fh = cci->ft_y; u_int ro = cci->row_offset; u_char eor_mask; u_char bl, tmp, ul; u_char *ft; if (c < ip->font.font_lo || c > ip->font.font_hi) return; ft = cci->font_cell[c]; if (!mode) { while (fh--) { *pl = *ft++; pl += ro; } return; } eor_mask = (mode & ATTR_INV) ? 0xff : 0x00; bl = (mode & ATTR_BOLD) ? 1 : 0; ul = (mode & ATTR_UL) ? fh - cci->underline : fh; for (; fh--; pl += ro) { if (fh != ul) { tmp = *ft++; if (bl) tmp |= (tmp >> 1); *pl = tmp ^ eor_mask; } else { *pl = 0xff ^ eor_mask; ft++; } } } static void clear8(struct ite_softc *ip, int sy, int sx, int h, int w) { ipriv_t *cci = (ipriv_t *) ip->priv; view_t *v = viewview(ip->grf->g_viewdev); bmap_t *bm = v->bitmap; if ((sx == 0) && (w == ip->cols)) { /* common case: clearing whole lines */ while (h--) { int i; u_char *ptr = cci->row_ptr[sy]; for (i = 0; i < ip->font.height; i++) { memset(ptr, 0, bm->bytes_per_row); ptr += bm->bytes_per_row; } sy++; } } else { /* * clearing only part of a line * XXX could be optimized MUCH better, but is it worth the * trouble? */ int i; u_char *pls, *ple; pls = cci->row_ptr[sy]; ple = pls + cci->column_offset[sx + w - 1]; pls = pls + cci->column_offset[sx]; for (i = ((ip->font.height) * h) - 1; i >= 0; i--) { u_char *p = pls; while (p <= ple) *p++ = 0; pls += bm->bytes_per_row; ple += bm->bytes_per_row; } } } /* Note: sx is only relevant for SCROLL_LEFT or SCROLL_RIGHT. */ static void scroll8(register struct ite_softc *ip, register int sy, int sx, int count, int dir) { bmap_t *bm = viewview(ip->grf->g_viewdev)->bitmap; u_char *pl = ((ipriv_t *)ip->priv)->row_ptr[sy]; if (dir == SCROLL_UP) { int dy = sy - count; cursor32(ip, ERASE_CURSOR); scrollbmap(bm, 0, dy * ip->font.height, bm->bytes_per_row >> 3, (ip->bottom_margin - dy + 1) * ip->font.height, 0, -(count * ip->font.height)); } else if (dir == SCROLL_DOWN) { cursor32(ip, ERASE_CURSOR); scrollbmap(bm, 0, sy * ip->font.height, bm->bytes_per_row >> 3, (ip->bottom_margin - sy + 1) * ip->font.height, 0, count * ip->font.height); } else if (dir == SCROLL_RIGHT) { int sofs = (ip->cols - count) * ip->font.width; int dofs = (ip->cols) * ip->font.width; int i, j; cursor32(ip, ERASE_CURSOR); for (j = ip->font.height - 1; j >= 0; j--) { int sofs2 = sofs, dofs2 = dofs; for (i = (ip->cols - (sx + count)) - 1; i >= 0; i--) { int t; sofs2 -= ip->font.width; dofs2 -= ip->font.width; __asm("bfextu %1@{%2:%3}, %0" : "=d" (t) : "a" (pl), "d" (sofs2), "d" (ip->font.width)); __asm("bfins %3, %0@{%1:%2}" : : "a" (pl), "d" (dofs2), "d" (ip->font.width), "d" (t)); } pl += bm->bytes_per_row; } } else { /* SCROLL_LEFT */ int sofs = (sx) * ip->font.width; int dofs = (sx - count) * ip->font.width; int i, j; cursor32(ip, ERASE_CURSOR); for (j = ip->font.height - 1; j >= 0; j--) { int sofs2 = sofs, dofs2 = dofs; for (i = (ip->cols - sx) - 1; i >= 0; i--) { int t; __asm("bfextu %1@{%2:%3}, %0" : "=d" (t) : "a" (pl), "d" (sofs2), "d" (ip->font.width)); __asm("bfins %3, %0@{%1:%2}" : : "a" (pl), "d" (dofs2), "d" (ip->font.width), "d" (t)); sofs2 += ip->font.width; dofs2 += ip->font.width; } pl += bm->bytes_per_row; } } } static void scrollbmap (bmap_t *bm, u_short x, u_short y, u_short width, u_short height, short dx, short dy) { u_short lwpr = bm->bytes_per_row >> 2; if (dx) { /* FIX: */ panic ("delta x not supported in scroll bitmap yet."); } if (dy == 0) { return; } if (dy > 0) { u_long *pl = (u_long *)bm->plane; u_long *src_y = pl + (lwpr * y); u_long *dest_y = pl + (lwpr * (y + dy)); u_long count = lwpr * (height - dy); u_long *clr_y = src_y; u_long clr_count = dest_y - src_y; u_long bc, cbc; src_y += count - 1; dest_y += count - 1; bc = count >> 4; count &= 0xf; while (bc--) { *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; *dest_y-- = *src_y--; } while (count--) *dest_y-- = *src_y--; cbc = clr_count >> 4; clr_count &= 0xf; while (cbc--) { *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; } while (clr_count--) *clr_y++ = 0; } else { u_long *pl = (u_long *)bm->plane; u_long *src_y = pl + (lwpr * (y - dy)); u_long *dest_y = pl + (lwpr * y); long count = lwpr * (height + dy); u_long *clr_y = dest_y + count; u_long clr_count = src_y - dest_y; u_long bc, cbc; bc = count >> 4; count &= 0xf; while (bc--) { *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; *dest_y++ = *src_y++; } while (count--) *dest_y++ = *src_y++; cbc = clr_count >> 4; clr_count &= 0xf; while (cbc--) { *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; *clr_y++ = 0; } while (clr_count--) *clr_y++ = 0; } }