/* $OpenBSD: pcvt_ext.c,v 1.3 1996/04/18 17:48:29 niklas Exp $ */ /* * Copyright (c) 1992, 1995 Hellmuth Michaelis and Joerg Wunsch. * * Copyright (C) 1992, 1993 Soeren Schmidt. * * All rights reserved. * * For the sake of compatibility, portions of this code regarding the * X server interface are taken from Soeren Schmidt's syscons driver. * * 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 * Hellmuth Michaelis, Joerg Wunsch and Soeren Schmidt. * 4. The name authors may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``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 AUTHORS 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. * * * @(#)pcvt_ext.c, 3.32, Last Edit-Date: [Tue Oct 3 11:19:48 1995] * */ /*---------------------------------------------------------------------------* * * pcvt_ext.c VT220 Driver Extended Support Routines * ------------------------------------------------------ * * -hm ------------ Release 3.00 -------------- * -hm integrating NetBSD-current patches * -hm applied Onno van der Linden's patch for Cirrus BIOS upgrade * -hm pcvt_x_hook has to care about fkey labels now * -hm changed some bcopyb's to bcopy's * -hm TS_INDEX -> TS_DATA for cirrus (mail from Onno/Charles) * -jw removed kbc_8042(), and replaced by kbd_emulate_pc() * -hm X server patch from John Kohl * -hm applying Joerg's patch for FreeBSD 2.0 * -hm enable 132 col support for Trident TVGA8900CL * -hm applying patch from Joerg fixing Crtat bug * -hm removed PCVT_FAKE_SYSCONS10 * -hm fastscroll/Crtat bugfix from Lon Willett * -hm bell patch from Thomas Eberhardt for NetBSD * -hm multiple X server bugfixes from Lon Willett * -hm patch from John Kohl fixing tsleep bug in usl_vt_ioctl() * -hm bugfix: clear 25th line when switching to a force 24 lines vt * -jw add some forward declarations * -hm fixing MDA re-init when leaving X * -hm patch from John Kohl fixing potential divide by 0 problem * -hm patch from Joerg: console unavailable flag handling * -hm bugfix: unknown cirrus board enables 132 cols * -hm fixing NetBSD PR1123, minor typo (reported by J.T. Conklin) * -hm adding support for Cirrus 5430 chipset * -hm adding NetBSD-current patches from John Kohl * -hm ---------------- Release 3.30 ----------------------- * -hm patch to support Cirrus CL-GD62x5 from Martin * -hm patch to support 132 cols for Cirrus CL-GD62x5 from Martin * -hm patch from Frank van der Linden for keyboard state per VT * -hm patch from Charles Hannum, bugfix of keyboard state switch * -hm implemented KDGKBMODE keyboard ioctl * -hm patch from John Kohl, missing kbd_setmode() in switch_screen() * -hm ---------------- Release 3.32 ----------------------- * *---------------------------------------------------------------------------*/ #include "vt.h" #if NVT > 0 #include "pcvt_hdr.h" /* global include */ static int s3testwritable( void ); static int et4000_col( int ); static int wd90c11_col( int ); static int tri9000_col( int ); static int v7_1024i_col( int ); static int s3_928_col( int ); static int cl_gd542x_col( int ); /* storage to save video timing values of 80 columns text mode */ static union { u_char generic[11]; u_char et4000[11]; u_char wd90c11[12]; u_char tri9000[13]; u_char v7_1024i[17]; u_char s3_928[32]; u_char cirrus[13]; } savearea; static int regsaved = 0; /* registers are saved to savearea */ /*---------------------------------------------------------------------------* * * Find out which video board we are running on, taken from: * Richard Ferraro: Programmers Guide to the EGA and VGA Cards * and from David E. Wexelblat's SuperProbe Version 1.0. * When a board is found, for which 132 column switching is * provided, the global variable "can_do_132col" is set to 1, * also the global variable vga_family is set to what we found. * * ############################################################### * ## THIS IS GETTING MORE AND MORE A LARGE SPAGHETTI HACK !!!! ## * ############################################################### * *---------------------------------------------------------------------------*/ u_char vga_chipset(void) { u_char *ptr; u_char byte, oldbyte, old1byte, newbyte; #if PCVT_132GENERIC can_do_132col = 1; /* assumes everyone can do 132 col */ #else can_do_132col = 0; /* assumes noone can do 132 col */ #endif /* PCVT_132GENERIC */ vga_family = VGA_F_NONE; /*---------------------------------------------------------------------------* * check for Western Digital / Paradise chipsets *---------------------------------------------------------------------------*/ ptr = (u_char *)Crtat; if(color) ptr += (0xc007d - 0xb8000); else ptr += (0xc007d - 0xb0000); if((*ptr++ == 'V') && (*ptr++ == 'G') && (*ptr++ == 'A') && (*ptr++ == '=')) { int wd90c10; vga_family = VGA_F_WD; outb(addr_6845, 0x2b); oldbyte = inb(addr_6845+1); outb(addr_6845+1, 0xaa); newbyte = inb(addr_6845+1); outb(addr_6845+1, oldbyte); if(newbyte != 0xaa) return(VGA_PVGA); /* PVGA1A chip */ outb(TS_INDEX, 0x12); oldbyte = inb(TS_DATA); outb(TS_DATA, oldbyte & 0xbf); newbyte = inb(TS_DATA) & 0x40; if(newbyte != 0) return(VGA_WD90C00); /* WD90C00 chip */ outb(TS_DATA, oldbyte | 0x40); newbyte = inb(TS_DATA) & 0x40; if(newbyte == 0) return(VGA_WD90C00); /* WD90C00 chip */ outb(TS_DATA, oldbyte); wd90c10 = 0; outb(TS_INDEX, 0x10); oldbyte = inb(TS_DATA); outb(TS_DATA, oldbyte & 0xfb); newbyte = inb(TS_DATA) & 0x04; if(newbyte != 0) wd90c10 = 1; outb(TS_DATA, oldbyte | 0x04); newbyte = inb(TS_DATA) & 0x04; if(newbyte == 0) wd90c10 = 1; outb(TS_DATA, oldbyte); if(wd90c10) return(VGA_WD90C10); else { can_do_132col = 1; return(VGA_WD90C11); } } /*---------------------------------------------------------------------------* * check for Trident chipsets *---------------------------------------------------------------------------*/ outb(TS_INDEX, 0x0b); oldbyte = inb(TS_DATA); outb(TS_INDEX, 0x0b); outb(TS_DATA, 0x00); byte = inb(TS_DATA); /* chipset type */ outb(TS_INDEX, 0x0e); old1byte = inb(TS_DATA); outb(TS_DATA, 0); newbyte = inb(TS_DATA); outb(TS_DATA, (old1byte ^ 0x02)); outb(TS_INDEX, 0x0b); outb(TS_DATA, oldbyte); if((newbyte & 0x0f) == 0x02) { /* is a trident chip */ vga_family = VGA_F_TRI; switch(byte) { case 0x01: return(VGA_TR8800BR); case 0x02: return(VGA_TR8800CS); case 0x03: can_do_132col = 1; return(VGA_TR8900B); case 0x04: case 0x13: /* Haven't tried, but should work */ can_do_132col = 1; return(VGA_TR8900C); case 0x23: can_do_132col = 1; return(VGA_TR9000); case 0x33: can_do_132col = 1; return(VGA_TR8900CL); case 0x83: return(VGA_TR9200); case 0x93: return(VGA_TR9100); default: return(VGA_TRUNKNOWN); } } /*---------------------------------------------------------------------------* * check for Tseng Labs ET3000/4000 chipsets *---------------------------------------------------------------------------*/ outb(GN_HERCOMPAT, 0x06); if(color) outb(GN_DMCNTLC, 0xa0); else outb(GN_DMCNTLM, 0xa0); /* read old value */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MISC); oldbyte = inb(ATC_DATAR); /* write new value */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MISC); newbyte = oldbyte ^ 0x10; outb(ATC_DATAW, newbyte); /* read back new value */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MISC); byte = inb(ATC_DATAR); /* write back old value */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MISC); outb(ATC_DATAW, oldbyte); if(byte == newbyte) /* ET3000 or ET4000 */ { vga_family = VGA_F_TSENG; outb(addr_6845, CRTC_EXTSTART); oldbyte = inb(addr_6845+1); newbyte = oldbyte ^ 0x0f; outb(addr_6845+1, newbyte); byte = inb(addr_6845+1); outb(addr_6845+1, oldbyte); if(byte == newbyte) { can_do_132col = 1; return(VGA_ET4000); } else { return(VGA_ET3000); } } /*---------------------------------------------------------------------------* * check for Video7 VGA chipsets *---------------------------------------------------------------------------*/ outb(TS_INDEX, TS_EXTCNTL); /* enable extensions */ outb(TS_DATA, 0xea); outb(addr_6845, CRTC_STARTADRH); oldbyte = inb(addr_6845+1); outb(addr_6845+1, 0x55); newbyte = inb(addr_6845+1); outb(addr_6845, CRTC_V7ID); /* id register */ byte = inb(addr_6845+1); /* read id */ outb(addr_6845, CRTC_STARTADRH); outb(addr_6845+1, oldbyte); outb(TS_INDEX, TS_EXTCNTL); /* disable extensions */ outb(TS_DATA, 0xae); if(byte == (0x55 ^ 0xea)) { /* is Video 7 */ vga_family = VGA_F_V7; outb(TS_INDEX, TS_EXTCNTL); /* enable extensions */ outb(TS_DATA, 0xea); outb(TS_INDEX, TS_V7CHIPREV); byte = inb(TS_DATA); outb(TS_INDEX, TS_EXTCNTL); /* disable extensions */ outb(TS_DATA, 0xae); if(byte < 0xff && byte >= 0x80) return(VGA_V7VEGA); if(byte < 0x7f && byte >= 0x70) return(VGA_V7FWVR); if(byte < 0x5a && byte >= 0x50) return(VGA_V7V5); if(byte < 0x4a && byte > 0x40) { can_do_132col = 1; return(VGA_V71024I); } return(VGA_V7UNKNOWN); } /*---------------------------------------------------------------------------* * check for S3 chipsets *---------------------------------------------------------------------------*/ outb(addr_6845, 0x38); /* reg 1 lock register */ old1byte = inb(addr_6845+1); /* get old value */ outb(addr_6845, 0x38); outb(addr_6845+1, 0x00); /* lock registers */ if(s3testwritable() == 0) /* check if locked */ { outb(addr_6845, 0x38); outb(addr_6845+1, 0x48); /* unlock registers */ if(s3testwritable() == 1 ) /* check if unlocked */ { vga_family = VGA_F_S3; /* FAMILY S3 */ outb(addr_6845, 0x30); /* chip id/rev reg */ byte = inb(addr_6845+1); switch(byte & 0xf0) { case 0x80: switch(byte & 0x0f) { case 0x01: outb(addr_6845, 0x38); outb(addr_6845+1, old1byte); return VGA_S3_911; case 0x02: outb(addr_6845, 0x38); outb(addr_6845+1, old1byte); return VGA_S3_924; default: outb(addr_6845, 0x38); outb(addr_6845+1, old1byte); return VGA_S3_UNKNOWN; } break; case 0xA0: outb(addr_6845, 0x38); outb(addr_6845+1, old1byte); return VGA_S3_80x; case 0x90: case 0xb0: outb(addr_6845, 0x38); outb(addr_6845+1, old1byte); can_do_132col = 1; return VGA_S3_928; default: outb(addr_6845, 0x38); outb(addr_6845+1, old1byte); return VGA_S3_UNKNOWN; } } } /*---------------------------------------------------------------------------* * check for Cirrus chipsets *---------------------------------------------------------------------------*/ outb(TS_INDEX, 6); oldbyte = inb(TS_DATA); outb(TS_INDEX, 6); outb(TS_DATA, 0x12); outb(TS_INDEX, 6); newbyte = inb(TS_DATA); outb(addr_6845, 0x27); byte = inb(addr_6845 + 1); outb(TS_INDEX, 6); outb(TS_DATA, oldbyte); if (newbyte == 0x12) { vga_family = VGA_F_CIR; switch ((byte & 0xfc) >> 2) { case 0x06: can_do_132col = 1; return VGA_CL_GD6225; case 0x22: switch (byte & 3) { case 0: can_do_132col = 1; return VGA_CL_GD5402; case 1: can_do_132col = 1; return VGA_CL_GD5402r1; case 2: can_do_132col = 1; return VGA_CL_GD5420; case 3: can_do_132col = 1; return VGA_CL_GD5420r1; } break; case 0x23: can_do_132col = 1; return VGA_CL_GD5422; case 0x24: can_do_132col = 1; return VGA_CL_GD5426; case 0x25: can_do_132col = 1; return VGA_CL_GD5424; case 0x26: can_do_132col = 1; return VGA_CL_GD5428; case 0x28: can_do_132col = 1; return VGA_CL_GD5430; } return(VGA_CL_UNKNOWN); } return(VGA_UNKNOWN); } /*--------------------------------------------------------------------------- * test if index 35 lower nibble is writable (taken from SuperProbe 1.0) *---------------------------------------------------------------------------*/ static int s3testwritable(void) { u_char old, new1, new2; outb(addr_6845, 0x35); old = inb(addr_6845+1); /* save */ outb(addr_6845, 0x35); outb(addr_6845+1, (old & 0xf0)); /* write 0 */ outb(addr_6845, 0x35); new1 = (inb(addr_6845+1)) & 0x0f; /* must read 0 */ outb(addr_6845, 0x35); outb(addr_6845+1, (old | 0x0f)); /* write 1 */ outb(addr_6845, 0x35); new2 = (inb(addr_6845+1)) & 0x0f; /* must read 1 */ outb(addr_6845, 0x35); outb(addr_6845+1, old); /* restore */ return((new1==0) && (new2==0x0f)); } /*---------------------------------------------------------------------------* * return ptr to string describing vga type *---------------------------------------------------------------------------*/ char * vga_string(int number) { static char *vga_tab[] = { "generic", "et4000", "et3000", "pvga1a", "wd90c00", "wd90c10", "wd90c11", "v7 vega", "v7 fast", "v7 ver5", "v7 1024i", "unknown v7", "tvga 8800br", "tvga 8800cs", "tvga 8900b", "tvga 8900c", "tvga 8900cl", "tvga 9000", "tvga 9100", "tvga 9200", "unknown trident", "s3 911", "s3 924", "s3 801/805", "s3 928", "unknown s3", "cl-gd5402", "cl-gd5402r1", "cl-gd5420", "cl-gd5420r1", "cl-gd5422", "cl-gd5424", "cl-gd5426", "cl-gd5428", "cl-gd5430", "cl-gd62x5", "unknown cirrus", /* VGA_MAX_CHIPSET */ "vga_string: chipset name table ptr overflow!" }; if(number > VGA_MAX_CHIPSET) /* failsafe */ number = VGA_MAX_CHIPSET; return(vga_tab[number]); } /*---------------------------------------------------------------------------* * toggle vga 80/132 column operation *---------------------------------------------------------------------------*/ int vga_col(struct video_state *svsp, int cols) { int ret = 0; if(adaptor_type != VGA_ADAPTOR) return(0); switch(vga_type) { case VGA_ET4000: ret = et4000_col(cols); break; case VGA_WD90C11: ret = wd90c11_col(cols); break; case VGA_TR8900B: case VGA_TR8900C: case VGA_TR8900CL: case VGA_TR9000: ret = tri9000_col(cols); break; case VGA_V71024I: ret = v7_1024i_col(cols); break; case VGA_S3_928: ret = s3_928_col(cols); break; case VGA_CL_GD5402: case VGA_CL_GD5402r1: case VGA_CL_GD5420: case VGA_CL_GD5420r1: case VGA_CL_GD5422: case VGA_CL_GD5424: case VGA_CL_GD5426: case VGA_CL_GD5428: case VGA_CL_GD5430: case VGA_CL_GD6225: ret = cl_gd542x_col(cols); break; default: #if PCVT_132GENERIC ret = generic_col(cols); #endif /* PCVT_132GENERIC */ break; } if(ret == 0) return(0); /* failed */ svsp->maxcol = cols; return(1); } #if PCVT_132GENERIC /*---------------------------------------------------------------------------* * toggle 80/132 column operation for "generic" SVGAs * NB: this is supposed to work on any (S)VGA as long as the monitor * is able to sync down to 21.5 kHz horizontally. The resulting * vertical frequency is only 50 Hz, so if there is some better board * specific algorithm, we avoid using this generic one. * REPORT ANY FAILURES SO WE CAN IMPROVE THIS *---------------------------------------------------------------------------*/ #if PCVT_EXP_132COL /* * Some improved (i.e. higher scan rates) figures for the horizontal * timing. USE AT YOUR OWN RISK, THIS MIGHT DAMAGE YOUR MONITOR DUE * TO A LOSS OF HORIZONTAL SYNC! * The figures have been tested with an ET3000 board along with a * NEC MultiSync 3D monitor. If you are playing here, consider * testing with several screen pictures (dark background vs. light * background, even enlightening the border color may impact the * result - you can do this e.g. by "scon -p black,42,42,42") * Remember that all horizontal timing values must be dividable * by 8! (The scheme below is taken so that nifty kernel hackers * are able to patch the figures at run-time.) * * The actual numbers result in 23 kHz line scan and 54 Hz vertical * scan. */ #endif /* PCVT_EXP_132COL */ int generic_col(int cols) { u_char *sp; u_char byte; #if !PCVT_EXP_132COL /* stable figures for any multisync monitor that syncs down to 22 kHz*/ static volatile u_short htotal = 1312; static volatile u_short displayend = 1056; static volatile u_short blankstart = 1072; static volatile u_short syncstart = 1112; static volatile u_short syncend = 1280; #else /* PCVT_EXP_132COL */ /* reduced sync-pulse width and sync delays */ static volatile u_short htotal = 1232; static volatile u_short displayend = 1056; static volatile u_short blankstart = 1056; static volatile u_short syncstart = 1104; static volatile u_short syncend = 1168; #endif /* PCVT_EXP_132COL */ vga_screen_off(); /* enable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte & 0x7f); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; sp = savearea.generic; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x03); /* Horizontal Blank End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); /* Row Offset Register */ *sp++ = inb(addr_6845+1); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ *sp++ = inb(TS_DATA); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); *sp++ = inb(ATC_DATAR); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); *sp++ = inb(ATC_DATAR); *sp++ = inb(GN_MISCOUTR); /* Misc output register */ } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, (htotal / 8) - 5); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, (displayend / 8) - 1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, blankstart / 8); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, ((syncend / 8) & 0x1f) | 0x80); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, syncstart / 8); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, (((syncend / 8) & 0x20) * 4) | ((syncend / 8) & 0x1f)); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, 0x01); /* 8 dot char clock */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); /* ATC Mode control */ outb(ATC_DATAW, 0x08); /* Line graphics disable */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); /* ATC Horizontal Pixel Panning */ outb(ATC_DATAW, 0x00); /* Misc output register */ /* use the 28.322 MHz clock */ outb(GN_MISCOUTW, (inb(GN_MISCOUTR) & ~0x0c) | 4); } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); vga_screen_on(); return(0); } sp = savearea.generic; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); outb(ATC_DATAW, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); outb(ATC_DATAW, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ } /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); vga_screen_on(); return(1); } #endif /* PCVT_132GENERIC */ /*---------------------------------------------------------------------------* * toggle 80/132 column operation for ET4000 based boards *---------------------------------------------------------------------------*/ int et4000_col(int cols) { u_char *sp; u_char byte; vga_screen_off(); /* enable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte & 0x7f); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; sp = savearea.et4000; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); /* Row Offset Register */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x34); /* 6845 Compatibility */ *sp++ = inb(addr_6845+1); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ *sp++ = inb(TS_DATA); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); *sp++ = inb(ATC_DATAR); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); *sp++ = inb(ATC_DATAR); *sp++ = inb(GN_MISCOUTR); /* Misc output register */ } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, 0x9f); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, 0x83); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, 0x84); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, 0x8b); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, 0x80); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); outb(addr_6845, 0x34); /* 6845 Compatibility */ outb(addr_6845+1, 0x0a); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, 0x01); /* 8 dot char clock */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); /* ATC Mode control */ outb(ATC_DATAW, 0x08); /* Line graphics disable */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); /* ATC Horizontal Pixel Panning */ outb(ATC_DATAW, 0x00); /* Misc output register */ outb(GN_MISCOUTW, (inb(GN_MISCOUTR) & ~0x0c)); } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); vga_screen_on(); return(0); } sp = savearea.et4000; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x34); /* 6845 Compatibility */ outb(addr_6845+1, *sp++); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); outb(ATC_DATAW, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); outb(ATC_DATAW, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ } /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); vga_screen_on(); return(1); } /*---------------------------------------------------------------------------* * toggle 80/132 column operation for WD/Paradise based boards * * when this card does 132 cols, the char map select register (TS_INDEX, * TS_FONTSEL) function bits get REDEFINED. whoever did design this, * please don't cross my way ever ....... * *---------------------------------------------------------------------------*/ int wd90c11_col(int cols) { #if !PCVT_BACKUP_FONTS static unsigned char *sv_fontwd[NVGAFONTS]; #endif /* !PCVT_BACKUP_FONTS */ u_char *sp; u_char byte; int i; vga_screen_off(); /* enable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte & 0x7f); /* enable access to WD/Paradise "control extensions" */ outb(GDC_INDEX, GDC_PR5GPLOCK); outb(GDC_INDEX, 0x05); outb(addr_6845, CRTC_PR10); outb(addr_6845, 0x85); outb(TS_INDEX, TS_UNLOCKSEQ); outb(TS_DATA, 0x48); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; /* save current fonts */ #if !PCVT_BACKUP_FONTS for(i = 0; i < totalfonts; i++) { if(vgacs[i].loaded) { if((sv_fontwd[i] = (u_char *)malloc(32 * 256, M_DEVBUF, M_WAITOK)) == NULL) printf("pcvt: no font buffer\n"); else vga_move_charset(i, sv_fontwd[i], 1); } else { sv_fontwd[i] = 0; } } #endif /* !PCVT_BACKUP_FONTS */ sp = savearea.wd90c11; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x03); /* Horizontal Blank End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); /* Row Offset Register */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x2e); /* misc 1 */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x2f); /* misc 2 */ *sp++ = inb(addr_6845+1); outb(TS_INDEX, 0x10);/* Timing Sequencer */ *sp++ = inb(TS_DATA); outb(TS_INDEX, 0x12);/* Timing Sequencer */ *sp++ = inb(TS_DATA); *sp++ = inb(GN_MISCOUTR); /* Misc output register */ } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, 0x9c); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, 0x83); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, 0x84); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, 0x9f); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, 0x8a); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, 0x1c); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); outb(addr_6845, 0x2e); /* misc 1 */ outb(addr_6845+1, 0x04); outb(addr_6845, 0x2f); /* misc 2 */ outb(addr_6845+1, 0x00); outb(TS_INDEX, 0x10);/* Timing Sequencer */ outb(TS_DATA, 0x21); outb(TS_INDEX, 0x12);/* Timing Sequencer */ outb(TS_DATA, 0x14); outb(GN_MISCOUTW, (inb(GN_MISCOUTR) | 0x08)); /* Misc output register */ vsp->wd132col = 1; } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); /* disable access to WD/Paradise "control extensions" */ outb(GDC_INDEX, GDC_PR5GPLOCK); outb(GDC_INDEX, 0x00); outb(addr_6845, CRTC_PR10); outb(addr_6845, 0x00); outb(TS_INDEX, TS_UNLOCKSEQ); outb(TS_DATA, 0x00); vga_screen_on(); return(0); } sp = savearea.wd90c11; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x2e); /* misc 1 */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x2f); /* misc 2 */ outb(addr_6845+1, *sp++); outb(TS_INDEX, 0x10);/* Timing Sequencer */ outb(addr_6845+1, *sp++); outb(TS_INDEX, 0x12);/* Timing Sequencer */ outb(addr_6845+1, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ vsp->wd132col = 0; } /* restore fonts */ #if !PCVT_BACKUP_FONTS for(i = 0; i < totalfonts; i++) { if(sv_fontwd[i]) vga_move_charset(i, sv_fontwd[i], 0); } #else for(i = 0; i < totalfonts; i++) if(saved_charsets[i]) vga_move_charset(i, 0, 0); #endif /* !PCVT_BACKUP_FONTS */ select_vga_charset(vsp->vga_charset); /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); /* disable access to WD/Paradise "control extensions" */ outb(GDC_INDEX, GDC_PR5GPLOCK); outb(GDC_INDEX, 0x00); outb(addr_6845, CRTC_PR10); outb(addr_6845, 0x00); outb(TS_INDEX, TS_UNLOCKSEQ); outb(TS_DATA, 0x00); vga_screen_on(); return(1); } /*---------------------------------------------------------------------------* * toggle 80/132 column operation for TRIDENT 9000 based boards *---------------------------------------------------------------------------*/ int tri9000_col(int cols) { u_char *sp; u_char byte; vga_screen_off(); /* sync reset is necessary to preserve memory contents ... */ outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x01); /* synchronous reset */ /* disable protection of misc out and other regs */ outb(addr_6845, CRTC_MTEST); byte = inb(addr_6845+1); outb(addr_6845, CRTC_MTEST); outb(addr_6845+1, byte & ~0x50); /* enable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte & 0x7f); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; sp = savearea.tri9000; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x03); /* Horizontal Blank End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); *sp++ = inb(addr_6845+1); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ *sp++ = inb(TS_DATA); outb(TS_INDEX, TS_HWVERS);/* Hardware Version register */ outb(TS_DATA, 0x00); /* write ANYTHING switches to OLD */ outb(TS_INDEX, TS_MODEC2); *sp++ = inb(TS_DATA); outb(TS_INDEX, TS_HWVERS);/* Hardware Version register */ inb(TS_DATA); /* read switches to NEW */ outb(TS_INDEX, TS_MODEC2); *sp++ = inb(TS_DATA); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); *sp++ = inb(ATC_DATAR); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); *sp++ = inb(ATC_DATAR); *sp++ = inb(GN_MISCOUTR); /* Misc output register */ } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, 0x9b); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, 0x83); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, 0x84); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, 0x1e); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, 0x87); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, 0x1a); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, 0x01); /* 8 dot char clock */ outb(TS_INDEX, TS_HWVERS);/* Hardware Version register */ outb(TS_DATA, 0x00); /* write ANYTHING switches to OLD */ outb(TS_INDEX, TS_MODEC2); outb(TS_DATA, 0x00); outb(TS_INDEX, TS_HWVERS);/* Hardware Version register */ inb(TS_DATA); /* read switches to NEW */ outb(TS_INDEX, TS_MODEC2); outb(TS_DATA, 0x01); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); /* ATC Mode control */ outb(ATC_DATAW, 0x08); /* Line graphics disable */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); /* ATC Horizontal Pixel Panning */ outb(ATC_DATAW, 0x00); outb(GN_MISCOUTW, (inb(GN_MISCOUTR) | 0x0c)); /* Misc output register */ } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x03); /* clear synchronous reset */ vga_screen_on(); return(0); } sp = savearea.tri9000; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, *sp++); outb(TS_INDEX, TS_HWVERS);/* Hardware Version register */ outb(TS_DATA, 0x00); /* write ANYTHING switches to OLD */ outb(TS_INDEX, TS_MODEC2);/* Timing Sequencer */ outb(TS_DATA, *sp++); outb(TS_INDEX, TS_HWVERS);/* Hardware Version register */ inb(TS_DATA); /* read switches to NEW */ outb(TS_INDEX, TS_MODEC2);/* Timing Sequencer */ outb(TS_DATA, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); outb(ATC_DATAW, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); outb(ATC_DATAW, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ } /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x03); /* clear synchronous reset */ vga_screen_on(); return(1); } /*---------------------------------------------------------------------------* * toggle 80/132 column operation for Video7 VGA 1024i *---------------------------------------------------------------------------*/ int v7_1024i_col(int cols) { u_char *sp; u_char byte; u_char save__byte; vga_screen_off(); /* enable access to first 7 CRTC registers */ /* first, enable read access to vertical retrace start/end */ outb(addr_6845, CRTC_HBLANKE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_HBLANKE); outb(addr_6845+1, (byte | 0x80)); /* second, enable access to protected registers */ outb(addr_6845, CRTC_VSYNCE); save__byte = byte = inb(addr_6845+1); byte |= 0x20; /* no irq 2 */ byte &= 0x6f; /* wr enable, clr irq flag */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); outb(TS_INDEX, TS_EXTCNTL); /* enable extensions */ outb(TS_DATA, 0xea); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; sp = savearea.v7_1024i; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x03); /* Horizontal Blank End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); /* Row Offset Register */ *sp++ = inb(addr_6845+1); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ *sp++ = inb(TS_DATA); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); *sp++ = inb(ATC_DATAR); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); *sp++ = inb(ATC_DATAR); outb(TS_INDEX, 0x83); *sp++ = inb(TS_DATA); outb(TS_INDEX, 0xa4); *sp++ = inb(TS_DATA); outb(TS_INDEX, 0xe0); *sp++ = inb(TS_DATA); outb(TS_INDEX, 0xe4); *sp++ = inb(TS_DATA); outb(TS_INDEX, 0xf8); *sp++ = inb(TS_DATA); outb(TS_INDEX, 0xfd); *sp++ = inb(TS_DATA); *sp++ = inb(GN_MISCOUTR); /* Misc output register */ } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, 0x9c); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, 0x83); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, 0x86); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, 0x9e); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, 0x89); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, 0x1c); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, 0x01); /* 8 dot char clock */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); /* ATC Mode control */ outb(ATC_DATAW, 0x08); /* Line graphics disable */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); /* ATC Horizontal Pixel Panning */ outb(ATC_DATAW, 0x00); outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x01); /* synchronous reset */ outb(TS_INDEX, 0x83); outb(TS_DATA, 0xa0); outb(TS_INDEX, 0xa4); outb(TS_DATA, 0x1c); outb(TS_INDEX, 0xe0); outb(TS_DATA, 0x00); outb(TS_INDEX, 0xe4); outb(TS_DATA, 0xfe); outb(TS_INDEX, 0xf8); outb(TS_DATA, 0x1b); outb(TS_INDEX, 0xfd); outb(TS_DATA, 0x33); byte = inb(GN_MISCOUTR); byte |= 0x0c; outb(GN_MISCOUTW, byte); /* Misc output register */ outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x03); /* clear synchronous reset */ } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { outb(TS_INDEX, TS_EXTCNTL); /* disable extensions */ outb(TS_DATA, 0xae); /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); vga_screen_on(); return(0); } sp = savearea.v7_1024i; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); outb(ATC_DATAW, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); outb(ATC_DATAW, *sp++); outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x01); /* synchronous reset */ outb(TS_INDEX, 0x83); outb(TS_DATA, *sp++); outb(TS_INDEX, 0xa4); outb(TS_DATA, *sp++); outb(TS_INDEX, 0xe0); outb(TS_DATA, *sp++); outb(TS_INDEX, 0xe4); outb(TS_DATA, *sp++); outb(TS_INDEX, 0xf8); outb(TS_DATA, *sp++); outb(TS_INDEX, 0xfd); outb(TS_DATA, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ outb(TS_INDEX, TS_SYNCRESET); outb(TS_DATA, 0x03); /* clear synchronous reset */ } outb(TS_INDEX, TS_EXTCNTL); /* disable extensions */ outb(TS_DATA, 0xae); /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, save__byte); vga_screen_on(); return(1); } /*---------------------------------------------------------------------------* * toggle 80/132 column operation for S3 86C928 based boards *---------------------------------------------------------------------------*/ int s3_928_col(int cols) { u_char *sp; u_char byte; vga_screen_off(); outb(addr_6845, 0x38); outb(addr_6845+1, 0x48); /* unlock registers */ outb(addr_6845, 0x39); outb(addr_6845+1, 0xa0); /* unlock registers */ /* enable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte & 0x7f); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; sp = savearea.s3_928; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x03); /* Horizontal Blank End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); /* Row Offset Register */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x34); /* Backward Compat 3 Reg */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x3b); /* Data Xfer Exec Position */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x42); /* (Clock) Mode Control */ *sp++ = inb(addr_6845+1); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ *sp++ = inb(TS_DATA); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); *sp++ = inb(ATC_DATAR); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); *sp++ = inb(ATC_DATAR); *sp++ = inb(GN_MISCOUTR); /* Misc output register */ } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, 0x9a); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, 0x83); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, 0x86); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, 0x9d); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, 0x87); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, 0x1b); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); outb(addr_6845, 0x34); outb(addr_6845+1, 0x10);/* enable data xfer pos control */ outb(addr_6845, 0x3b); outb(addr_6845+1, 0x90);/* set data xfer pos value */ outb(addr_6845, 0x42); /* (Clock) Mode Control */ outb(addr_6845+1, 0x02);/* Select 40MHz Clock */ outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, 0x01); /* 8 dot char clock */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); /* ATC Mode control */ outb(ATC_DATAW, 0x08); /* Line graphics disable */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); /* ATC Horizontal Pixel Panning */ outb(ATC_DATAW, 0x00); /* Misc output register */ outb(GN_MISCOUTW, (inb(GN_MISCOUTR) | 0x0c)); } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); outb(addr_6845, 0x38); outb(addr_6845+1, 0x00); /* lock registers */ outb(addr_6845, 0x39); outb(addr_6845+1, 0x00); /* lock registers */ vga_screen_on(); return(0); } sp = savearea.s3_928; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x34); outb(addr_6845+1, *sp++); outb(addr_6845, 0x3b); outb(addr_6845+1, *sp++); outb(addr_6845, 0x42); /* Mode control */ outb(addr_6845+1, *sp++); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); outb(ATC_DATAW, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); outb(ATC_DATAW, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ } /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); outb(addr_6845, 0x38); outb(addr_6845+1, 0x00); /* lock registers */ outb(addr_6845, 0x39); outb(addr_6845+1, 0x00); /* lock registers */ vga_screen_on(); return(1); } /*---------------------------------------------------------------------------* * toggle 80/132 column operation for Cirrus Logic 542x based boards *---------------------------------------------------------------------------*/ int cl_gd542x_col(int cols) { u_char *sp; u_char byte; vga_screen_off(); /* enable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); byte = inb(addr_6845+1); outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte & 0x7f); /* enable access to cirrus extension registers */ outb(TS_INDEX, 6); outb(TS_DATA, 0x12); if(cols == SCR_COL132) /* switch 80 -> 132 */ { /* save state of board for 80 columns */ if(!regsaved) { regsaved = 1; sp = savearea.cirrus; outb(addr_6845, 0x00); /* Horizontal Total */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x01); /* Horizontal Display End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x02); /* Horizontal Blank Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x03); /* Horizontal Blank End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x05); /* Horizontal Retrace End */ *sp++ = inb(addr_6845+1); outb(addr_6845, 0x13); /* Row Offset Register */ *sp++ = inb(addr_6845+1); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ *sp++ = inb(TS_DATA); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); *sp++ = inb(ATC_DATAR); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); *sp++ = inb(ATC_DATAR); /* VCLK2 Numerator Register */ outb(TS_INDEX, 0xd); *sp++ = inb(TS_DATA); /* VCLK2 Denominator and Post-Scalar Value Register */ outb(TS_INDEX, 0x1d); *sp++ = inb(TS_DATA); /* Misc output register */ *sp++ = inb(GN_MISCOUTR); } /* setup chipset for 132 column operation */ outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, 0x9f); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, 0x83); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, 0x84); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, 0x82); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, 0x8a); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, 0x9e); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, 0x42); /* set VCLK2 to 41.164 MHz ..... */ outb(TS_INDEX, 0xd); /* VCLK2 Numerator Register */ outb(TS_DATA, 0x45); outb(TS_INDEX, 0x1d); /* VCLK2 Denominator and */ outb(TS_DATA, 0x30); /* Post-Scalar Value Register */ /* and use it. */ outb(GN_MISCOUTW, (inb(GN_MISCOUTR) & ~0x0c) | (2 << 2)); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, 0x01); /* 8 dot char clock */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); /* ATC Mode control */ outb(ATC_DATAW, 0x08); /* Line graphics disable */ if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); /* ATC Horizontal Pixel Panning */ outb(ATC_DATAW, 0x00); } else /* switch 132 -> 80 */ { if(!regsaved) /* failsafe */ { /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); /* disable access to cirrus extension registers */ outb(TS_INDEX, 6); outb(TS_DATA, 0); vga_screen_on(); return(0); } sp = savearea.cirrus; outb(addr_6845, 0x00); /* Horizontal Total */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x01); /* Horizontal Display End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x02); /* Horizontal Blank Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x03); /* Horizontal Blank End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x04); /* Horizontal Retrace Start */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x05); /* Horizontal Retrace End */ outb(addr_6845+1, *sp++); outb(addr_6845, 0x13); /* Row Offset Register */ outb(addr_6845+1, *sp++); outb(TS_INDEX, TS_MODE);/* Timing Sequencer */ outb(TS_DATA, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Mode control */ outb(ATC_INDEX, ATC_MODE | ATC_ACCESS); outb(ATC_DATAW, *sp++); if(color) inb(GN_INPSTAT1C); else inb(GN_INPSTAT1M); /* ATC Horizontal Pixel Panning */ outb(ATC_INDEX, ATC_HORPIXPAN | ATC_ACCESS); outb(ATC_DATAW, *sp++); /* VCLK2 Numerator Register */ outb(TS_INDEX, 0xd); outb(TS_DATA, *sp++); /* VCLK2 Denominator and Post-Scalar Value Register */ outb(TS_INDEX, 0x1d); outb(TS_DATA, *sp++); outb(GN_MISCOUTW, *sp++); /* Misc output register */ } /* disable access to cirrus extension registers */ outb(TS_INDEX, 6); outb(TS_DATA, 0); /* disable access to first 7 CRTC registers */ outb(addr_6845, CRTC_VSYNCE); outb(addr_6845+1, byte); vga_screen_on(); return(1); } /*---------------------------------------------------------------------------* * switch screen from text mode to X-mode and vice versa *---------------------------------------------------------------------------*/ void switch_screen(int n, int oldgrafx, int newgrafx) { #if PCVT_SCREENSAVER static unsigned saved_scrnsv_tmo = 0; #endif /* PCVT_SCREENSAVER */ #if !PCVT_KBD_FIFO int x; #endif /* !PCVT_KBD_FIFO */ int cols = vsp->maxcol; /* get current col val */ if(n < 0 || n >= totalscreens) return; #if !PCVT_KBD_FIFO x = spltty(); /* protect us */ #endif /* !PCVT_KBD_FIFO */ if(!oldgrafx && newgrafx) { /* switch from text to graphics */ #if PCVT_SCREENSAVER if((saved_scrnsv_tmo = scrnsv_timeout)) pcvt_set_scrnsv_tmo(0); /* screensaver off */ #endif /* PCVT_SCREENSAVER */ } if(!oldgrafx) { /* switch from text mode */ /* video board memory -> kernel memory */ bcopy(vsp->Crtat, vsp->Memory, vsp->screen_rows * vsp->maxcol * CHR); vsp->Crtat = vsp->Memory; /* operate in memory now */ } /* update global screen pointers/variables */ current_video_screen = n; /* current screen no */ #if !PCVT_NETBSD && !(PCVT_FREEBSD > 110 && PCVT_FREEBSD < 200) pcconsp = &pccons[n]; /* current tty */ #elif PCVT_FREEBSD > 110 && PCVT_FREEBSD < 200 pcconsp = pccons[n]; /* current tty */ #elif PCVT_NETBSD > 100 pcconsp = vs[n].vs_tty; /* current tty */ #else pcconsp = pc_tty[n]; /* current tty */ #endif vsp = &vs[n]; /* current video state ptr */ if(oldgrafx && !newgrafx) { /* switch from graphics to text mode */ unsigned i; /* restore fonts */ for(i = 0; i < totalfonts; i++) if(saved_charsets[i]) vga_move_charset(i, 0, 0); #if PCVT_SCREENSAVER /* activate screen saver */ if(saved_scrnsv_tmo) pcvt_set_scrnsv_tmo(saved_scrnsv_tmo); #endif /* PCVT_SCREENSAVER */ /* re-initialize lost MDA information */ if(adaptor_type == MDA_ADAPTOR) { /* * Due to the fact that HGC registers are write-only, * the Xserver can only make guesses about the state * the HGC adaptor has been before turning on X mode. * Thus, the display must be re-enabled now, and the * cursor shape and location restored. */ outb(GN_DMCNTLM, 0x28); /* enable display, text mode */ outb(addr_6845, CRTC_CURSORH); /* select high register */ outb(addr_6845+1, ((vsp->Crtat + vsp->cur_offset) - Crtat) >> 8); outb(addr_6845, CRTC_CURSORL); /* select low register */ outb(addr_6845+1, ((vsp->Crtat + vsp->cur_offset) - Crtat)); outb(addr_6845, CRTC_CURSTART); /* select high register */ outb(addr_6845+1, vsp->cursor_start); outb(addr_6845, CRTC_CUREND); /* select low register */ outb(addr_6845+1, vsp->cursor_end); } } if(!newgrafx) { /* to text mode */ /* kernel memory -> video board memory */ bcopy(vsp->Crtat, Crtat, vsp->screen_rows * vsp->maxcol * CHR); vsp->Crtat = Crtat; /* operate on screen now */ outb(addr_6845, CRTC_STARTADRH); outb(addr_6845+1, 0); outb(addr_6845, CRTC_STARTADRL); outb(addr_6845+1, 0); } #if !PCVT_KBD_FIFO splx(x); #endif /* !PCVT_KBD_FIFO */ select_vga_charset(vsp->vga_charset); if(vsp->maxcol != cols) vga_col(vsp, vsp->maxcol); /* select 80/132 columns */ outb(addr_6845, CRTC_CURSORH); /* select high register */ outb(addr_6845+1, vsp->cur_offset >> 8); outb(addr_6845, CRTC_CURSORL); /* select low register */ outb(addr_6845+1, vsp->cur_offset); if(vsp->cursor_on) { outb(addr_6845, CRTC_CURSTART); /* select high register */ outb(addr_6845+1, vsp->cursor_start); outb(addr_6845, CRTC_CUREND); /* select low register */ outb(addr_6845+1, vsp->cursor_end); } else { sw_cursor(0); } if(adaptor_type == VGA_ADAPTOR) { unsigned i; /* switch VGA DAC palette entries */ for(i = 0; i < NVGAPEL; i++) vgapaletteio(i, &vsp->palette[i], 1); } if(!newgrafx) { update_led(); /* update led's */ update_hp(vsp); /* update fkey labels, if present */ /* if we switch to a vt with force 24 lines mode and */ /* pure VT emulation and 25 rows charset, then we have */ /* to clear the last line on display ... */ if(vsp->force24 && (vsp->vt_pure_mode == M_PUREVT) && (vgacs[vsp->vga_charset].screen_size == SIZ_25ROWS)) { fillw(' ', vsp->Crtat + vsp->screen_rows * vsp->maxcol, vsp->maxcol); } } kbd_setmode(vsp->kbd_state); } /*---------------------------------------------------------------------------* * Change specified vt to VT_AUTO mode * xxx Maybe this should also reset VT_GRAFX mode; since switching and * graphics modes are not going to work without VT_PROCESS mode. *---------------------------------------------------------------------------*/ static void set_auto_mode (struct video_state *vsx) { unsigned ostatus = vsx->vt_status; vsx->smode.mode = VT_AUTO; vsx->proc = NULL; vsx->pid = 0; vsx->vt_status &= ~(VT_WAIT_REL|VT_WAIT_ACK); if (ostatus & VT_WAIT_ACK) { #if 0 assert (!(ostatus&VT_WAIT_REL)); assert (vsp == vsx && vt_switch_pending == current_video_screen + 1); vt_switch_pending = 0; #else if (vsp == vsx && vt_switch_pending == current_video_screen + 1) vt_switch_pending = 0; #endif } if (ostatus&VT_WAIT_REL) { int new_screen = vt_switch_pending - 1; #if 0 assert(vsp == vsx && vt_switch_pending); vt_switch_pending = 0; vgapage (new_screen); #else if (vsp == vsx && vt_switch_pending) { vt_switch_pending = 0; vgapage (new_screen); } #endif } } /*---------------------------------------------------------------------------* * Exported function; to be called when a vt is closed down. * * Ideally, we would like to be able to recover from an X server crash; * but in reality, if the server crashes hard while in control of the * vga board, then you're not likely to be able to use pcvt ttys * without rebooting. *---------------------------------------------------------------------------*/ void reset_usl_modes (struct video_state *vsx) { /* Clear graphics mode */ if (vsx->vt_status & VT_GRAFX) { vsx->vt_status &= ~VT_GRAFX; if (vsp == vsx) switch_screen(current_video_screen, 1, 0); } /* Take kbd out of raw mode */ if(vsx->kbd_state == K_RAW) { if(vsx == vsp) kbd_setmode(K_XLATE); vsx->kbd_state = K_XLATE; } /* Clear process controlled mode */ set_auto_mode (vsx); } /*---------------------------------------------------------------------------* * switch to virtual screen n (0 ... PCVT_NSCREENS-1) * (the name vgapage() stands for historical reasons) *---------------------------------------------------------------------------*/ int vgapage(int new_screen) { int x; if(new_screen < 0 || new_screen >= totalscreens) return EINVAL; /* fallback to VT_AUTO if controlling processes died */ if(vsp->proc && vsp->proc != pfind(vsp->pid)) set_auto_mode(vsp); if(vs[new_screen].proc && vs[new_screen].proc != pfind(vs[new_screen].pid)) set_auto_mode(&vs[new_screen]); if (!vt_switch_pending && new_screen == current_video_screen) return 0; if(vt_switch_pending && vt_switch_pending != new_screen + 1) { /* Try resignaling uncooperative X-window servers */ if (vsp->smode.mode == VT_PROCESS) { if (vsp->vt_status & VT_WAIT_REL) { if(vsp->smode.relsig) psignal(vsp->proc, vsp->smode.relsig); } else if (vsp->vt_status & VT_WAIT_ACK) { if(vsp->smode.acqsig) psignal(vsp->proc, vsp->smode.acqsig); } } return EAGAIN; } vt_switch_pending = new_screen + 1; if(vsp->smode.mode == VT_PROCESS) { /* we cannot switch immediately here */ vsp->vt_status |= VT_WAIT_REL; if(vsp->smode.relsig) psignal(vsp->proc, vsp->smode.relsig); } else { struct video_state *old_vsp = vsp; switch_screen(new_screen, vsp->vt_status & VT_GRAFX, vs[new_screen].vt_status & VT_GRAFX); x = spltty(); if(old_vsp->vt_status & VT_WAIT_ACT) { old_vsp->vt_status &= ~VT_WAIT_ACT; wakeup((caddr_t)&old_vsp->smode); } if(vsp->vt_status & VT_WAIT_ACT) { vsp->vt_status &= ~VT_WAIT_ACT; wakeup((caddr_t)&vsp->smode); } splx(x); if(vsp->smode.mode == VT_PROCESS) { /* if _new_ vt is under process control... */ vsp->vt_status |= VT_WAIT_ACK; if(vsp->smode.acqsig) psignal(vsp->proc, vsp->smode.acqsig); } else { /* we are committed */ vt_switch_pending = 0; #if PCVT_FREEBSD > 206 /* * XXX: If pcvt is acting as the systems console, * avoid panics going to the debugger while we are in * process mode. */ if(pcvt_is_console) cons_unavail = 0; #endif } } return 0; } /*---------------------------------------------------------------------------* * VT_USL ioctl handling *---------------------------------------------------------------------------*/ int usl_vt_ioctl(Dev_t dev, int cmd, caddr_t data, int flag, struct proc *p) { int i, j, error, opri, mode; struct vt_mode newmode; struct video_state *vsx = &vs[minor(dev)]; switch(cmd) { case VT_SETMODE: newmode = *(struct vt_mode *)data; opri = spltty(); if (newmode.mode != VT_PROCESS) { if (vsx->smode.mode == VT_PROCESS) { if (vsx->proc != p) { splx(opri); return EPERM; } set_auto_mode(vsx); } splx(opri); return 0; } /* * NB: XFree86-3.1.1 does the following: * VT_ACTIVATE (vtnum) * VT_WAITACTIVE (vtnum) * VT_SETMODE (VT_PROCESS) * So it is possible that the screen was switched * between the WAITACTIVE and the SETMODE (here). This * can actually happen quite frequently, and it was * leading to dire consequences. Now it is detected by * requiring that minor(dev) match current_video_screen. * An alternative would be to operate on vs[minor(dev)] * instead of *vsp, but that would leave the server * confused, because it would believe that its vt was * currently activated. */ if (minor(dev) != current_video_screen) { splx(opri); return EPERM; } /* Check for server died */ if(vsp->proc && vsp->proc != pfind(vsp->pid)) set_auto_mode(vsp); /* Check for server already running */ if (vsp->smode.mode == VT_PROCESS && vsp->proc != p) { splx(opri); return EBUSY; /* already in use on this VT */ } vsp->smode = newmode; vsp->proc = p; vsp->pid = p->p_pid; #if PCVT_FREEBSD > 206 /* * XXX: If pcvt is acting as the systems console, * avoid panics going to the debugger while we are in * process mode. */ if(pcvt_is_console) cons_unavail = (newmode.mode == VT_PROCESS); #endif splx(opri); return 0; case VT_GETMODE: *(struct vt_mode *)data = vsp->smode; return 0; case VT_RELDISP: if (minor(dev) != current_video_screen) return EPERM; if (vsp->smode.mode != VT_PROCESS) return EINVAL; if (vsp->proc != p) return EPERM; switch(*(int *)data) { case VT_FALSE: /* process refuses to release screen; abort */ if(vt_switch_pending && (vsp->vt_status & VT_WAIT_REL)) { vsp->vt_status &= ~VT_WAIT_REL; vt_switch_pending = 0; return 0; } break; case VT_TRUE: /* process releases its VT */ if(vt_switch_pending && (vsp->vt_status & VT_WAIT_REL)) { int new_screen = vt_switch_pending - 1; struct video_state *old_vsp = vsp; vsp->vt_status &= ~VT_WAIT_REL; switch_screen(new_screen, vsp->vt_status & VT_GRAFX, vs[new_screen].vt_status & VT_GRAFX); opri = spltty(); if(old_vsp->vt_status & VT_WAIT_ACT) { old_vsp->vt_status &= ~VT_WAIT_ACT; wakeup((caddr_t)&old_vsp->smode); } if(vsp->vt_status & VT_WAIT_ACT) { vsp->vt_status &= ~VT_WAIT_ACT; wakeup((caddr_t)&vsp->smode); } splx(opri); if(vsp->smode.mode == VT_PROCESS) { /* * if the new vt is also in process * mode, we have to wait until its * controlling process acknowledged * the switch */ vsp->vt_status |= VT_WAIT_ACK; if(vsp->smode.acqsig) psignal(vsp->proc, vsp->smode.acqsig); } else { /* we are committed */ vt_switch_pending = 0; #if PCVT_FREEBSD > 206 /* XXX */ if(pcvt_is_console) cons_unavail = 0; #endif } return 0; } break; case VT_ACKACQ: /* new vts controlling process acknowledged */ if(vsp->vt_status & VT_WAIT_ACK) { vt_switch_pending = 0; vsp->vt_status &= ~VT_WAIT_ACK; #if PCVT_FREEBSD > 206 /* XXX */ if(pcvt_is_console) cons_unavail = 1; #endif return 0; } break; } return EINVAL; /* end case VT_RELDISP */ case VT_OPENQRY: /* return free vt */ for(i = 0; i < PCVT_NSCREENS; i++) { if(!vs[i].openf) { *(int *)data = i + 1; return 0; } } return EAGAIN; case VT_GETACTIVE: *(int *)data = current_video_screen + 1; return 0; case VT_ACTIVATE: return vgapage(*(int *)data - 1); case VT_WAITACTIVE: /* sleep until vt switch happened */ i = *(int *)data - 1; if(i != -1 && (i < 0 || i >= PCVT_NSCREENS)) return EINVAL; if(i != -1 && current_video_screen == i) return 0; if(i == -1) { /* xxx Is this what it is supposed to do? */ int x = spltty(); i = current_video_screen; error = 0; while (current_video_screen == i && error == 0) { vs[i].vt_status |= VT_WAIT_ACT; error = tsleep((caddr_t)&vs[i].smode, PZERO | PCATCH, "waitvt", 0); } splx(x); } else { int x = spltty(); error = 0; while (current_video_screen != i && error == 0) { vs[i].vt_status |= VT_WAIT_ACT; error = tsleep((caddr_t)&vs[i].smode, PZERO | PCATCH, "waitvt", 0); } splx(x); } return (error == ERESTART) ? PCVT_ERESTART : error; case KDENABIO: /* grant the process IO access; only allowed if euid == 0 */ { #if PCVT_NETBSD > 9 || PCVT_FREEBSD >= 200 struct trapframe *fp = (struct trapframe *)p->p_md.md_regs; #elif PCVT_NETBSD || (PCVT_FREEBSD && PCVT_FREEBSD > 102) struct trapframe *fp = (struct trapframe *)p->p_regs; #else struct syscframe *fp = (struct syscframe *)p->p_regs; #endif if(suser(p->p_ucred, &p->p_acflag) != 0) return (EPERM); #if (PCVT_NETBSD <= 100) || defined(COMPAT_10) || defined(COMPAT_11) /* This is done by i386_iopl(3) now. */ #if PCVT_NETBSD || (PCVT_FREEBSD && PCVT_FREEBSD > 102) fp->tf_eflags |= PSL_IOPL; #else fp->sf_eflags |= PSL_IOPL; #endif #endif return 0; } case KDDISABIO: /* abandon IO access permission */ { #if (PCVT_NETBSD <= 100) || defined(COMPAT_10) || defined(COMPAT_11) /* This is done by i386_iopl(3) now. */ #if PCVT_NETBSD > 9 || PCVT_FREEBSD >= 200 struct trapframe *fp = (struct trapframe *)p->p_md.md_regs; fp->tf_eflags &= ~PSL_IOPL; #elif PCVT_NETBSD || (PCVT_FREEBSD && PCVT_FREEBSD > 102) struct trapframe *fp = (struct trapframe *)p->p_regs; fp->tf_eflags &= ~PSL_IOPL; #else struct syscframe *fp = (struct syscframe *)p->p_regs; fp->sf_eflags &= ~PSL_IOPL; #endif #endif return 0; } case KDSETMODE: { int haschanged = 0; if(adaptor_type != VGA_ADAPTOR && adaptor_type != MDA_ADAPTOR) /* X will only run on those adaptors */ return (EINVAL); /* set text/graphics mode of current vt */ switch(*(int *)data) { case KD_TEXT: haschanged = (vsx->vt_status & VT_GRAFX) != 0; vsx->vt_status &= ~VT_GRAFX; if(haschanged && vsx == vsp) switch_screen(current_video_screen, 1, 0); return 0; case KD_GRAPHICS: /* xxx It might be a good idea to require that the vt be in process controlled mode here, and that the calling process is the owner */ haschanged = (vsx->vt_status & VT_GRAFX) == 0; vsx->vt_status |= VT_GRAFX; if(haschanged && vsx == vsp) switch_screen(current_video_screen, 0, 1); return 0; } return EINVAL; /* end case KDSETMODE */ } case KDSETRAD: /* set keyboard repeat and delay */ return kbdioctl(dev, KBDSTPMAT, data, flag); case KDGKBMODE: *(int *)data = vsx->kbd_state; return 0; case KDSKBMODE: mode = *(int *)data; switch(mode) { case K_RAW: case K_XLATE: if(vsx->kbd_state != mode) { if(vsx == vsp) kbd_setmode(mode); vsx->kbd_state = mode; } return 0; } return EINVAL; /* end KDSKBMODE */ case KDMKTONE: /* ring the speaker */ if(data) { int duration = *(int *)data >> 16; int pitch = *(int *)data & 0xffff; #if PCVT_NETBSD if(pitch != 0) { sysbeep(PCVT_SYSBEEPF / pitch, duration * hz / 1000); } #else /* PCVT_NETBSD */ sysbeep(pitch, duration * hz / 3000); #endif /* PCVT_NETBSD */ } else { sysbeep(PCVT_SYSBEEPF / 1493, hz / 4); } return 0; case KDSETLED: /* set kbd LED status */ /* unfortunately, the LED definitions between pcvt and */ /* USL differ some way :-( */ i = *(int *)data; j = (i & LED_CAP? KBD_CAPSLOCK: 0) + (i & LED_NUM? KBD_NUMLOCK: 0) + (i & LED_SCR? KBD_SCROLLLOCK: 0); return kbdioctl(dev, KBDSLOCK, (caddr_t)&j, flag); case KDGETLED: /* get kbd LED status */ if((error = kbdioctl(dev, KBDGLOCK, (caddr_t)&j, flag))) return error; i = (j & KBD_CAPSLOCK? LED_CAP: 0) + (j & KBD_NUMLOCK? LED_NUM: 0) + (j & KBD_SCROLLLOCK? LED_SCR: 0); *(int *)data = i; return 0; case GIO_KEYMAP: get_usl_keymap((keymap_t *)data); return 0; } /* end case cmd */ return -1; /* inappropriate usl_vt_compat ioctl */ } #endif /* NVT > 0 */ /* ------------------------- E O F ------------------------------------------*/