/* $OpenBSD: pcvt_out.c,v 1.7 1999/01/13 07:26:02 niklas Exp $ */ /* * Copyright (c) 1992, 1995 Hellmuth Michaelis and Joerg Wunsch. * * Copyright (c) 1992, 1993 Brian Dunford-Shore. * * All rights reserved. * * This code is derived from software contributed to Berkeley by * William Jolitz and Don Ahn. * * 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, * Brian Dunford-Shore and Joerg Wunsch. * 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_out.c, 3.32, Last Edit-Date: [Tue Oct 3 11:19:49 1995] * */ /*---------------------------------------------------------------------------* * * pcvt_out.c VT220 Terminal Emulator * --------------------------------------- * -hm ------------ Release 3.00 -------------- * -hm integrating NetBSD-current patches * -hm integrating patch from Thomas Gellekum * -hm bugfix: clear last line when hpmode 28lines and force 24 * -hm right fkey labels after soft/hard reset * -hm patch from Joerg for comconsole operation * -hm patch from Lon Willet to preserve the initial cursor shape * -hm if FAT_CURSOR is defined, you get the old cursor type back .. * -hm patch from Lon Willett regarding winsize settings * -hm applying patch from Joerg fixing Crtat bug, non VGA startup bug * -hm setting variable color for CGA and MDA/HGC in coldinit * -hm fixing bug initializing cursor position on startup * -hm fixing support for EGA boards in vt_coldinit() * -hm bugfix from Joerg: check for svsp->vs_tty before using it * -hm patches from Michael for NetBSD-current (Apr/21/95) support * -hm ---------------- Release 3.30 ----------------------- * -hm patch from Thomas Gellekum to support C1 controls * -hm patch from Frank van der Linden for keyboard state per VT * -hm ---------------- Release 3.32 ----------------------- * *---------------------------------------------------------------------------*/ #include "vt.h" #if NVT > 0 #define PCVT_INCLUDE_VT_SELATTR /* get inline function from pcvt_hdr.h */ #include "pcvt_hdr.h" /* global include */ static void check_scroll ( struct video_state *svsp ); static void hp_entry ( U_char ch, struct video_state *svsp ); static void wrfkl ( int num, u_char *string, struct video_state *svsp ); static void writefkl ( int num, u_char *string, struct video_state *svsp ); static __inline void write_char (struct video_state *, u_short, u_short ch); /*---------------------------------------------------------------------------* * do character set transformation and write to display memory (inline) *---------------------------------------------------------------------------*/ #define video (svsp->Crtat + svsp->cur_offset) static __inline void write_char (svsp, attrib, ch) struct video_state *svsp; u_short attrib, ch; { if ((ch >= 0x20) && (ch <= 0x7f)) /* use GL if ch >= 0x20 */ { if(!svsp->ss) /* single shift G2/G3 -> GL ? */ { *video = attrib | svsp->GL[ch-0x20]; } else { *video = attrib | svsp->Gs[ch-0x20]; svsp->ss = 0; } } else { svsp->ss = 0; if(ch >= 0x80) /* display controls C1 */ { if(ch >= 0xA0) /* use GR if ch >= 0xA0 */ { *video = attrib | svsp->GR[ch-0xA0]; } else { if(vgacs[svsp->vga_charset].secondloaded) { *video = attrib | ((ch-0x60) | CSH); } else /* use normal ibm charset for control display */ { *video = attrib | ch; } } } else /* display controls C0 */ { if(vgacs[svsp->vga_charset].secondloaded) { *video = attrib | (ch | CSH); } else /* use normal ibm charset for control display*/ { *video = attrib | ch; } } } } /*---------------------------------------------------------------------------* * emulator main entry *---------------------------------------------------------------------------*/ void sput (u_char *s, U_char kernel, int len, int page) { register struct video_state *svsp; u_short attrib; u_short ch; if(page >= PCVT_NSCREENS) /* failsafe */ page = 0; svsp = &vs[page]; /* pointer to current screen state */ if(do_initialization) /* first time called ? */ vt_coldinit(); /* yes, we have to init ourselves */ if(svsp == vsp) /* on current displayed page ? */ { cursor_pos_valid = 0; /* do not update cursor */ #if PCVT_SCREENSAVER if(scrnsv_active) /* screen blanked ? */ pcvt_scrnsv_reset(); /* unblank NOW ! */ else reset_screen_saver = 1; /* do it asynchronously */ #endif /* PCVT_SCREENSAVER */ } attrib = kernel ? kern_attr : svsp->c_attr; while (len-- > 0) if ((ch = (*(s++))) != 0) { if(svsp->sevenbit) ch &= 0x7f; if((svsp->transparent == 0) && ((ch <= 0x1f) || (svsp->C1_ctls && (ch > 0x7f) && (ch < 0xa0)))) { /* always process control-chars in the range 0x00..0x1f !!! */ /* also process the C1 control chars a VT220 recognizes and * ignore the others. */ if(svsp->dis_fnc) { if(svsp->lastchar && svsp->m_awm && (svsp->lastrow == svsp->row)) { svsp->cur_offset++; svsp->col = 0; svsp->lastchar = 0; check_scroll(svsp); } if(svsp->irm) bcopy((svsp->Crtat + svsp->cur_offset), (svsp->Crtat + svsp->cur_offset) + 1, (((svsp->maxcol)-1) - svsp->col)*CHR); write_char(svsp, attrib, ch); vt_selattr(svsp); if(svsp->col >= ((svsp->maxcol)-1) && ch != 0x0a && ch != 0x0b && ch != 0x0c) { svsp->lastchar = 1; svsp->lastrow = svsp->row; } else if(ch == 0x0a || ch == 0x0b || ch == 0x0c) { svsp->cur_offset -= svsp->col; svsp->cur_offset += svsp->maxcol; svsp->col = 0; svsp->lastchar = 0; check_scroll(svsp); /* check scroll up */ } else { svsp->cur_offset++; svsp->col++; svsp->lastchar = 0; } } else { switch(ch) { case 0x00: /* NUL */ case 0x01: /* SOH */ case 0x02: /* STX */ case 0x03: /* ETX */ case 0x04: /* EOT */ case 0x05: /* ENQ */ case 0x06: /* ACK */ break; case 0x07: /* BEL */ if(svsp->bell_on) sysbeep(PCVT_SYSBEEPF/1500, hz/4); break; case 0x08: /* BS */ if(svsp->col > 0) { svsp->cur_offset--; svsp->col--; } break; case 0x09: /* TAB */ while(svsp->col < ((svsp->maxcol)-1)) { svsp->cur_offset++; if(svsp-> tab_stops[++svsp->col]) break; } break; case 0x0a: /* LF */ case 0x0b: /* VT */ case 0x0c: /* FF */ if(svsp->lnm) { svsp->cur_offset -= svsp->col; svsp->cur_offset += svsp->maxcol; svsp->col = 0; } else { svsp->cur_offset += svsp->maxcol; } check_scroll(svsp); break; case 0x0d: /* CR */ svsp->cur_offset -= svsp->col; svsp->col = 0; break; case 0x0e: /* SO */ svsp->GL = svsp->G1; break; case 0x0f: /* SI */ svsp->GL = svsp->G0; break; case 0x10: /* DLE */ case 0x11: /* DC1/XON */ case 0x12: /* DC2 */ case 0x13: /* DC3/XOFF */ case 0x14: /* DC4 */ case 0x15: /* NAK */ case 0x16: /* SYN */ case 0x17: /* ETB */ break; case 0x18: /* CAN */ svsp->state = STATE_INIT; clr_parms(svsp); break; case 0x19: /* EM */ break; case 0x1a: /* SUB */ svsp->state = STATE_INIT; clr_parms(svsp); break; case 0x1b: /* ESC */ svsp->state = STATE_ESC; clr_parms(svsp); break; case 0x1c: /* FS */ case 0x1d: /* GS */ case 0x1e: /* RS */ case 0x1f: /* US */ break; case 0x80: /* */ case 0x81: /* */ case 0x82: /* */ case 0x83: /* */ break; case 0x84: /* IND */ vt_ind(svsp); break; case 0x85: /* NEL */ vt_nel(svsp); break; case 0x86: /* SSA */ case 0x87: /* ESA */ break; case 0x88: /* HTS */ svsp->tab_stops[svsp->col] = 1; break; case 0x89: /* HTJ */ case 0x8a: /* VTS */ case 0x8b: /* PLD */ case 0x8c: /* PLU */ break; case 0x8d: /* RI */ vt_ri(svsp); break; case 0x8e: /* SS2 */ svsp->Gs = svsp->G2; svsp->ss = 1; break; case 0x8f: /* SS3 */ svsp->Gs = svsp->G3; svsp->ss = 1; break; case 0x90: /* DCS */ svsp->dcs_state = DCS_INIT; svsp->state = STATE_DCS; break; case 0x91: /* PU1 */ case 0x92: /* PU2 */ case 0x93: /* STS */ case 0x94: /* CCH */ case 0x95: /* MW */ case 0x96: /* SPA */ case 0x97: /* EPA */ case 0x98: /* */ case 0x99: /* */ case 0x9a: /* */ break; case 0x9b: /* CSI */ clr_parms(svsp); svsp->state = STATE_CSI; break; case 0x9c: /* ST */ svsp->state = STATE_INIT; break; case 0x9d: /* OSC */ case 0x9e: /* PM */ case 0x9f: /* APC */ /* only in VT320's */ break; } } } else { /* char range 0x20...0xff processing depends on current state */ switch(svsp->state) { case STATE_INIT: if(svsp->lastchar && svsp->m_awm && (svsp->lastrow == svsp->row)) { svsp->cur_offset++; svsp->col = 0; svsp->lastchar = 0; check_scroll(svsp); } if(svsp->irm) bcopy ((svsp->Crtat + svsp->cur_offset), (svsp->Crtat + svsp->cur_offset) + 1, (((svsp->maxcol)-1) - svsp->col) * CHR); write_char(svsp, attrib, ch); vt_selattr(svsp); if(svsp->col >= ((svsp->maxcol)-1)) { svsp->lastchar = 1; svsp->lastrow = svsp->row; } else { svsp->lastchar = 0; svsp->cur_offset++; svsp->col++; } break; case STATE_ESC: switch(ch) { case ' ': /* ESC sp family */ svsp->state = STATE_BLANK; break; case '#': /* ESC # family */ svsp->state = STATE_HASH; break; case '&': /* ESC & family (HP) */ if(svsp->vt_pure_mode == M_HPVT) { svsp->state = STATE_AMPSND; svsp->hp_state = SHP_INIT; } else svsp->state = STATE_INIT; break; case '(': /* ESC ( family */ svsp->state = STATE_BROPN; break; case ')': /* ESC ) family */ svsp->state = STATE_BRCLO; break; case '*': /* ESC * family */ svsp->state = STATE_STAR; break; case '+': /* ESC + family */ svsp->state = STATE_PLUS; break; case '-': /* ESC - family */ svsp->state = STATE_MINUS; break; case '.': /* ESC . family */ svsp->state = STATE_DOT; break; case '/': /* ESC / family */ svsp->state = STATE_SLASH; break; case '7': /* SAVE CURSOR */ vt_sc(svsp); svsp->state = STATE_INIT; break; case '8': /* RESTORE CURSOR */ vt_rc(svsp); if (!kernel) attrib = svsp->c_attr; svsp->state = STATE_INIT; break; case '=': /* keypad application mode */ #if !PCVT_INHIBIT_NUMLOCK vt_keyappl(svsp); #endif svsp->state = STATE_INIT; break; case '>': /* keypad numeric mode */ #if !PCVT_INHIBIT_NUMLOCK vt_keynum(svsp); #endif svsp->state = STATE_INIT; break; case 'D': /* INDEX */ vt_ind(svsp); svsp->state = STATE_INIT; break; case 'E': /* NEXT LINE */ vt_nel(svsp); svsp->state = STATE_INIT; break; case 'H': /* set TAB at current col */ svsp->tab_stops[svsp->col] = 1; svsp->state = STATE_INIT; break; case 'M': /* REVERSE INDEX */ vt_ri(svsp); svsp->state = STATE_INIT; break; case 'N': /* SINGLE SHIFT G2 */ svsp->Gs = svsp->G2; svsp->ss = 1; svsp->state = STATE_INIT; break; case 'O': /* SINGLE SHIFT G3 */ svsp->Gs = svsp->G3; svsp->ss = 1; svsp->state = STATE_INIT; break; case 'P': /* DCS detected */ svsp->dcs_state = DCS_INIT; svsp->state = STATE_DCS; break; case 'Z': /* What are you = ESC [ c */ vt_da(svsp); svsp->state = STATE_INIT; break; case '[': /* CSI detected */ clr_parms(svsp); svsp->state = STATE_CSI; break; case '\\': /* String Terminator */ svsp->state = STATE_INIT; break; case 'c': /* hard reset */ vt_ris(svsp); if (!kernel) attrib = svsp->c_attr; svsp->state = STATE_INIT; break; #if PCVT_SETCOLOR case 'd': /* set color sgr */ if(color) { /* set shiftwidth=4 */ sgr_tab_color [svsp-> vtsgr] = svsp->c_attr >> 8; user_attr = sgr_tab_color [0] << 8; } svsp->state = STATE_INIT; break; #endif /* PCVT_SETCOLOR */ case 'n': /* Lock Shift G2 -> GL */ svsp->GL = svsp->G2; svsp->state = STATE_INIT; break; case 'o': /* Lock Shift G3 -> GL */ svsp->GL = svsp->G3; svsp->state = STATE_INIT; break; case '}': /* Lock Shift G2 -> GR */ svsp->GR = svsp->G2; svsp->state = STATE_INIT; break; case '|': /* Lock Shift G3 -> GR */ svsp->GR = svsp->G3; svsp->state = STATE_INIT; break; case '~': /* Lock Shift G1 -> GR */ svsp->GR = svsp->G1; svsp->state = STATE_INIT; break; default: svsp->state = STATE_INIT; break; } break; case STATE_BLANK: /* ESC space [FG], which are */ svsp->state = STATE_INIT; /* currently ignored*/ break; case STATE_HASH: switch(ch) { case '3': /* double height top half */ case '4': /*double height bottom half*/ case '5': /*single width sngle height*/ case '6': /*double width sngle height*/ svsp->state = STATE_INIT; break; case '8': /* fill sceen with 'E's */ vt_aln(svsp); svsp->state = STATE_INIT; break; default: /* anything else */ svsp->state = STATE_INIT; break; } break; case STATE_BROPN: /* designate G0 */ case STATE_BRCLO: /* designate G1 */ case STATE_STAR: /* designate G2 */ case STATE_PLUS: /* designate G3 */ case STATE_MINUS: /* designate G1 (96) */ case STATE_DOT: /* designate G2 (96) */ case STATE_SLASH: /* designate G3 (96) */ svsp->which[svsp->whichi++] = ch; if(ch >= 0x20 && ch <= 0x2f && svsp->whichi <= 2) break; else if(ch >=0x30 && ch <= 0x7e) { svsp->which[svsp->whichi] = '\0'; vt_designate(svsp); } svsp->whichi = 0; svsp->state = STATE_INIT; break; case STATE_CSIQM: /* DEC private modes */ switch(ch) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* parameters */ svsp->parms[svsp->parmi] *= 10; svsp->parms[svsp->parmi] += (ch -'0'); break; case ';': /* next parameter */ svsp->parmi = (svsp->parmi+1 < MAXPARMS) ? svsp->parmi+1 : svsp->parmi; break; case 'h': /* set mode */ vt_set_dec_priv_qm(svsp); svsp->state = STATE_INIT; break; case 'l': /* reset mode */ vt_reset_dec_priv_qm(svsp); svsp->state = STATE_INIT; break; case 'n': /* Reports */ vt_dsr(svsp); svsp->state = STATE_INIT; break; case 'K': /* selective erase in line */ vt_sel(svsp); svsp->state = STATE_INIT; break; case 'J':/*selective erase in display*/ vt_sed(svsp); svsp->state = STATE_INIT; break; default: svsp->state = STATE_INIT; break; } break; case STATE_CSI: switch(ch) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* parameters */ svsp->parms[svsp->parmi] *= 10; svsp->parms[svsp->parmi] += (ch -'0'); break; case ';': /* next parameter */ svsp->parmi = (svsp->parmi+1 < MAXPARMS) ? svsp->parmi+1 : svsp->parmi; break; case '?': /* ESC [ ? family */ svsp->state = STATE_CSIQM; break; case '@': /* insert char */ vt_ic(svsp); svsp->state = STATE_INIT; break; case '"': /* select char attribute */ svsp->state = STATE_DQUOTE; break; case '\'': /* for DECELR/DECSLE */ /* XXX */ /* another state needed -hm */ break; case '!': /* soft terminal reset */ svsp->state = STATE_STR; break; case 'A': /* cursor up */ vt_cuu(svsp); svsp->state = STATE_INIT; break; case 'B': /* cursor down */ vt_cud(svsp); svsp->state = STATE_INIT; break; case 'C': /* cursor forward */ vt_cuf(svsp); svsp->state = STATE_INIT; break; case 'D': /* cursor backward */ vt_cub(svsp); svsp->state = STATE_INIT; break; case 'H': /* direct cursor addressing*/ vt_curadr(svsp); svsp->state = STATE_INIT; break; case 'J': /* erase screen */ vt_clreos(svsp); svsp->state = STATE_INIT; break; case 'K': /* erase line */ vt_clreol(svsp); svsp->state = STATE_INIT; break; case 'L': /* insert line */ vt_il(svsp); svsp->state = STATE_INIT; break; case 'M': /* delete line */ vt_dl(svsp); svsp->state = STATE_INIT; break; case 'P': /* delete character */ vt_dch(svsp); svsp->state = STATE_INIT; break; case 'S': /* scroll up */ vt_su(svsp); svsp->state = STATE_INIT; break; case 'T': /* scroll down */ vt_sd(svsp); svsp->state = STATE_INIT; break; case 'X': /* erase character */ vt_ech(svsp); svsp->state = STATE_INIT; break; case 'c': /* device attributes */ vt_da(svsp); svsp->state = STATE_INIT; break; case 'f': /* direct cursor addressing*/ vt_curadr(svsp); svsp->state = STATE_INIT; break; case 'g': /* clear tabs */ vt_clrtab(svsp); svsp->state = STATE_INIT; break; case 'h': /* set mode(s) */ vt_set_ansi(svsp); svsp->state = STATE_INIT; break; case 'i': /* media copy */ vt_mc(svsp); svsp->state = STATE_INIT; break; case 'l': /* reset mode(s) */ vt_reset_ansi(svsp); svsp->state = STATE_INIT; break; case 'm': /* select graphic rendition*/ vt_sgr(svsp); if (!kernel) attrib = svsp->c_attr; svsp->state = STATE_INIT; break; case 'n': /* reports */ vt_dsr(svsp); svsp->state = STATE_INIT; break; case 'r': /* set scrolling region */ vt_stbm(svsp); svsp->state = STATE_INIT; break; case 'x': /*request/report parameters*/ vt_reqtparm(svsp); svsp->state = STATE_INIT; break; case 'y': /* invoke selftest(s) */ vt_tst(svsp); svsp->state = STATE_INIT; break; case 'z': /* DECELR, ignored */ case '{': /* DECSLE, ignored */ svsp->state = STATE_INIT; break; default: svsp->state = STATE_INIT; break; } break; case STATE_AMPSND: hp_entry(ch,svsp); break; case STATE_DCS: vt_dcsentry(ch,svsp); break; case STATE_DQUOTE: switch(ch) { case 'p': /* compatibility level */ vt_scl(svsp); svsp->state = STATE_INIT; break; case 'q': /* select char attributes */ vt_sca(svsp); svsp->state = STATE_INIT; break; default: svsp->state = STATE_INIT; break; } break; case STATE_STR: switch(ch) { case 'p': /* soft terminal reset */ vt_str(svsp); if (!kernel) attrib = svsp->c_attr; svsp->state = STATE_INIT; break; default: svsp->state = STATE_INIT; break; } break; default: /* failsafe */ svsp->state = STATE_INIT; break; } } svsp->row = svsp->cur_offset / svsp->maxcol; /* current row update */ /* take care of last character on line behaviour */ if(svsp->lastchar && (svsp->col < ((svsp->maxcol)-1))) svsp->lastchar = 0; } if(svsp == vsp) /* on current displayed page ? */ cursor_pos_valid = 1; /* position is valid now */ } /*---------------------------------------------------------------------------* * this is the absolute cold initialization of the emulator *---------------------------------------------------------------------------*/ void vt_coldinit(void) { extern u_short csd_ascii[]; /* pcvt_tbl.h */ extern u_short csd_supplemental[]; u_short was; int nscr, charset; int equipment; struct video_state *svsp; do_initialization = 0; /* reset init necessary flag */ /* get the equipment byte from the RTC chip */ equipment = mc146818_read(NULL, NVRAM_EQUIPMENT); switch(equipment & NVRAM_EQUIPMENT_MONITOR) { default: panic("vt_coldinit: impossible equipment"); case EQ_EGAVGA: /* set memory start to CGA == B8000 */ Crtat = ISA_HOLE_VADDR(CGA_BUF); /* find out, what monitor is connected */ was = *Crtat; *Crtat = (u_short) 0xA55A; if (*Crtat != 0xA55A) { Crtat = ISA_HOLE_VADDR(MONO_BUF); addr_6845 = MONO_BASE; color = 0; } else { *Crtat = was; addr_6845 = CGA_BASE; color = 1; } if(vga_test()) /* EGA or VGA ? */ { adaptor_type = VGA_ADAPTOR; totalfonts = 8; if(color == 0) { mda2egaorvga(); } /* find out which chipset we are running on */ vga_type = vga_chipset(); } else { adaptor_type = EGA_ADAPTOR; totalfonts = 4; if(color == 0) { mda2egaorvga(); } } /* decouple ega/vga charsets and intensity */ set_2ndcharset(); break; case EQ_40COLOR: /* XXX should panic in 40 col mode ! */ case EQ_80COLOR: Crtat = ISA_HOLE_VADDR (CGA_BUF); addr_6845 = CGA_BASE; adaptor_type = CGA_ADAPTOR; color = 1; totalfonts = 0; break; case EQ_80MONO: Crtat = ISA_HOLE_VADDR (MONO_BUF); addr_6845 = MONO_BASE; adaptor_type = MDA_ADAPTOR; color = 0; totalfonts = 0; break; } /* establish default colors */ if(color) { kern_attr = (COLOR_KERNEL_FG | COLOR_KERNEL_BG) << 8; user_attr = sgr_tab_color[0] << 8; } else { kern_attr = (MONO_KERNEL_FG | MONO_KERNEL_BG) << 8; if(adaptor_type == MDA_ADAPTOR) user_attr = sgr_tab_imono[0] << 8; else user_attr = sgr_tab_mono[0] << 8; } totalscreens = 1; /* for now until malloced */ for(nscr = 0, svsp = vs; nscr < PCVT_NSCREENS; nscr++, svsp++) { svsp->Crtat = Crtat; /* all same until malloc'ed */ svsp->Memory = Crtat; /* until malloc'ed */ svsp->cur_offset = 0; /* cursor offset */ svsp->c_attr = user_attr; /* non-kernel attributes */ svsp->bell_on = 1; /* enable bell */ svsp->sevenbit = 0; /* set to 8-bit path */ svsp->dis_fnc = 0; /* disable display functions */ svsp->transparent = 0; /* disable internal tranparency */ svsp->C1_ctls = 0; /* process only C0 ctls */ svsp->lastchar = 0; /* VTxxx behaviour of last */ /* char on line */ svsp->report_chars = NULL; /* VTxxx reports init */ svsp->report_count = 0; /* VTxxx reports init */ svsp->state = STATE_INIT; /* main state machine init */ svsp->m_awm = 1; /* enable auto wrap mode */ svsp->m_om = 0; /* origin mode = absolute */ svsp->sc_flag = 0; /* init saved cursor flag */ svsp->which_fkl = SYS_FKL; /* display system fkey-labels */ svsp->labels_on = 1; /* if in HP-mode, display */ /* fkey-labels */ svsp->attribute = 0; /* HP mode init */ svsp->key = 0; /* HP mode init */ svsp->l_len = 0; /* HP mode init */ svsp->s_len = 0; /* HP mode init */ svsp->m_len = 0; /* HP mode init */ svsp->i = 0; /* HP mode init */ svsp->vt_pure_mode = M_PUREVT; /* initial mode: pure VT220*/ svsp->vga_charset = CH_SET0; /* use bios default charset */ #if PCVT_24LINESDEF /* true compatibility */ svsp->screen_rows = 24; /* default 24 rows on screen */ #else /* full screen */ svsp->screen_rows = 25; /* default 25 rows on screen */ #endif /* PCVT_24LINESDEF */ svsp->screen_rowsize = 25; /* default 25 rows on screen */ svsp->scrr_beg = 0; /* scrolling region begin row*/ svsp->scrr_len = svsp->screen_rows; /* scrolling region length*/ svsp->scrr_end = svsp->scrr_len - 1;/* scrolling region end */ if(nscr == 0) { if(adaptor_type == VGA_ADAPTOR) { /* only VGA can read cursor shape registers ! */ /* Preserve initial cursor shape */ outb(addr_6845,CRTC_CURSTART); svsp->cursor_start = inb(addr_6845+1); outb(addr_6845,CRTC_CUREND); svsp->cursor_end = inb(addr_6845+1); } else { /* MDA,HGC,CGA,EGA registers are write-only */ svsp->cursor_start = 0; svsp->cursor_end = 15; } } else { svsp->cursor_start = vs[0].cursor_start; svsp->cursor_end = vs[0].cursor_end; } #ifdef FAT_CURSOR svsp->cursor_end = 15; /* cursor lower scanline */ #endif svsp->cursor_on = 1; /* cursor is on */ svsp->ckm = 1; /* normal cursor key mode */ svsp->irm = 0; /* replace mode */ svsp->lnm = 0; /* CR only */ svsp->selchar = 0; /* selective attribute off */ svsp->G0 = csd_ascii; /* G0 = ascii */ svsp->G1 = csd_ascii; /* G1 = ascii */ svsp->G2 = csd_supplemental; /* G2 = supplemental */ svsp->G3 = csd_supplemental; /* G3 = supplemental */ svsp->GL = svsp->G0; /* GL = G0 */ svsp->GR = svsp->G2; /* GR = G2 */ svsp->whichi = 0; /* char set designate init */ svsp->which[0] = '\0'; /* char set designate init */ svsp->hp_state = SHP_INIT; /* init HP mode state machine*/ svsp->dcs_state = DCS_INIT; /* init DCS mode state machine*/ svsp->ss = 0; /* init single shift 2/3 */ svsp->Gs = NULL; /* Gs single shift 2/3 */ svsp->maxcol = SCR_COL80; /* 80 columns now (MUST!!!) */ svsp->wd132col = 0; /* help good old WD .. */ svsp->scroll_lock = 0; /* scrollock off */ #if PCVT_INHIBIT_NUMLOCK svsp->num_lock = 0; /* numlock off */ #else svsp->num_lock = 1; /* numlock on */ #endif svsp->caps_lock = 0; /* capslock off */ svsp->shift_lock = 0; /* shiftlock off */ #if PCVT_24LINESDEF /* true compatibility */ svsp->force24 = 1; /* force 24 lines */ #else /* maximum screen size */ svsp->force24 = 0; /* no 24 lines force yet */ #endif /* PCVT_24LINESDEF */ vt_clearudk(svsp); /* clear vt220 udk's */ vt_str(svsp); /* init emulator */ if(nscr == 0) { /* * Preserve data on the startup screen that * precedes the cursor position. Leave the * cursor where it was found. */ unsigned cursorat; int filllen; /* CRTC regs 0x0e and 0x0f are r/w everywhere */ outb(addr_6845, CRTC_CURSORH); cursorat = inb(addr_6845+1) << 8; outb(addr_6845, CRTC_CURSORL); cursorat |= inb(addr_6845+1); svsp->cur_offset = cursorat; svsp->row = cursorat / svsp->maxcol; svsp->col = cursorat % svsp->maxcol; if (svsp->row >= svsp->screen_rows) { /* * Scroll up; this should only happen when * PCVT_24LINESDEF is set */ int nscroll = svsp->row + 1 - svsp->screen_rows; bcopy (svsp->Crtat + nscroll*svsp->maxcol, svsp->Crtat, svsp->screen_rows * svsp->maxcol * CHR); svsp->row -= nscroll; svsp->cur_offset -= nscroll * svsp->maxcol; } filllen = (svsp->maxcol * svsp->screen_rowsize) - svsp->cur_offset; if (filllen > 0) fillw(user_attr | ' ', (caddr_t)(svsp->Crtat+svsp->cur_offset), filllen); } svsp->smode.mode = VT_AUTO; svsp->smode.relsig = svsp->smode.acqsig = svsp->smode.frsig = 0; svsp->proc = 0; svsp->kbd_state = K_XLATE; svsp->pid = svsp->vt_status = 0; } for(charset = 0;charset < NVGAFONTS;charset++) { vgacs[charset].loaded = 0; /* not populated yet */ vgacs[charset].secondloaded = 0; /* not populated yet */ switch(adaptor_type) { case VGA_ADAPTOR: /* * for a VGA, do not assume any * constant - instead, read the actual * values. This avoid problems with * LCD displays that apparently happen * to use font matrices up to 19 * scan lines and 475 scan lines * total in order to make use of the * whole screen area */ outb(addr_6845, CRTC_VDE); vgacs[charset].scr_scanlines = inb(addr_6845 + 1); outb(addr_6845, CRTC_MAXROW); vgacs[charset].char_scanlines = inb(addr_6845 + 1); break; case EGA_ADAPTOR: /* 0x5D for 25 lines */ vgacs[charset].scr_scanlines = 0x5D; /* 0x4D for 25 lines */ vgacs[charset].char_scanlines = 0x4D; break; case CGA_ADAPTOR: case MDA_ADAPTOR: default: /* These shouldn't be used for CGA/MDA */ vgacs[charset].scr_scanlines = 0; vgacs[charset].char_scanlines = 0; break; } vgacs[charset].screen_size = SIZ_25ROWS; /* set screen size */ } vgacs[0].loaded = 1; /* The BIOS loaded this at boot */ /* set cursor for first screen */ outb(addr_6845,CRTC_CURSTART); /* cursor start reg */ outb(addr_6845+1,vs[0].cursor_start); outb(addr_6845,CRTC_CUREND); /* cursor end reg */ outb(addr_6845+1,vs[0].cursor_end); /* this is to satisfy ddb */ if(!keyboard_is_initialized) kbd_code_init1(); /* update keyboard led's */ update_led(); } /*---------------------------------------------------------------------------* * get kernel memory for virtual screens * * CAUTION: depends on "can_do_132col" being set properly, or * depends on vga_type() being run before calling this !!! * *---------------------------------------------------------------------------*/ void vt_coldmalloc(void) { int nscr; int screen_max_size; /* we need to initialize in case we are not the console */ if(do_initialization) vt_coldinit(); switch(adaptor_type) { default: case MDA_ADAPTOR: case CGA_ADAPTOR: screen_max_size = MAXROW_MDACGA * MAXCOL_MDACGA * CHR; break; case EGA_ADAPTOR: screen_max_size = MAXROW_EGA * MAXCOL_EGA * CHR; break; case VGA_ADAPTOR: if(can_do_132col) screen_max_size = MAXROW_VGA * MAXCOL_SVGA * CHR; else screen_max_size = MAXROW_VGA * MAXCOL_VGA * CHR; } for(nscr = 0; nscr < PCVT_NSCREENS; nscr++) { if((vs[nscr].Memory = (u_short *)malloc(screen_max_size * 2, M_DEVBUF, M_WAITOK)) == NULL) { printf("pcvt: screen memory malloc failed, " "NSCREEN=%d, nscr=%d\n", PCVT_NSCREENS, nscr); break; } if(nscr != 0) { vs[nscr].Crtat = vs[nscr].Memory; fillw(user_attr | ' ', (caddr_t)(vs[nscr].Crtat), vs[nscr].maxcol * vs[nscr].screen_rowsize); totalscreens++; } } } /*---------------------------------------------------------------------------* * check if we must scroll up screen *---------------------------------------------------------------------------*/ static void check_scroll(struct video_state *svsp) { if(!svsp->abs_write) { /* we write within scroll region */ if(svsp->cur_offset >= ((svsp->scrr_end + 1) * svsp->maxcol)) { /* the following piece of code has to be protected */ /* from trying to switch to another virtual screen */ /* while being in there ... */ critical_scroll = 1; /* flag protect ON */ roll_up(svsp, 1); /* rolling up .. */ svsp->cur_offset -= svsp->maxcol;/* update position */ if(switch_page != -1) /* someone wanted to switch ? */ { vgapage(switch_page); /* yes, then switch ! */ switch_page = -1; /* reset switch flag */ } critical_scroll = 0; /* flag protect OFF */ } } else { /* clip, if outside of screen */ if (svsp->cur_offset >= svsp->screen_rows * svsp->maxcol) svsp->cur_offset -= svsp->maxcol; } } /*---------------------------------------------------------------------------* * write to one user function key label *---------------------------------------------------------------------------*/ static void writefkl(int num, u_char *string, struct video_state *svsp) { if((num < 0) || (num > 7)) /* range ok ? */ return; strncpy(svsp->ufkl[num], string, 16); /* save string in static array */ if(svsp->which_fkl == USR_FKL) wrfkl(num,string,svsp); } /*---------------------------------------------------------------------------* * write to one system function key label *---------------------------------------------------------------------------*/ void swritefkl(int num, u_char *string, struct video_state *svsp) { if((num < 0) || (num > 7)) /* range ok ? */ return; strncpy(svsp->sfkl[num], string, 16); /* save string in static array */ if(svsp->which_fkl == SYS_FKL) wrfkl(num,string,svsp); } /*---------------------------------------------------------------------------* * write function key label onto screen *---------------------------------------------------------------------------*/ static void wrfkl(int num, u_char *string, struct video_state *svsp) { register u_short *p; register u_short *p1; register int cnt = 0; if(!svsp->labels_on || (svsp->vt_pure_mode == M_PUREVT)) return; p = (svsp->Crtat + (svsp->screen_rows * svsp->maxcol)); /* screen_rows+1 line */ if(svsp->maxcol == SCR_COL80) { if(num < 4) /* labels 1 .. 4 */ p += (num * LABEL_LEN); else /* labels 5 .. 8 */ p += ((num * LABEL_LEN) + LABEL_MID + 1); } else { if(num < 4) /* labels 1 .. 4 */ p += (num * (LABEL_LEN + 6)); else /* labels 5 .. 8 */ p += ((num * (LABEL_LEN + 6)) + LABEL_MID + 11); } p1 = p + svsp->maxcol; /* second label line */ while((*string != '\0') && (cnt < 8)) { *p = ((0x70 << 8) + (*string & 0xff)); p++; string++; cnt++; } while(cnt < 8) { *p = ((0x70 << 8) + ' '); p++; cnt++; } while((*string != '\0') && (cnt < 16)) { *p1 = ((0x70 << 8) + (*string & 0xff)); p1++; string++; cnt++; } while(cnt < 16) { *p1 = ((0x70 << 8) + ' '); p1++; cnt++; } } /*---------------------------------------------------------------------------* * remove (=blank) function key labels, row/col and status line *---------------------------------------------------------------------------*/ void fkl_off(struct video_state *svsp) { register u_short *p; register int num; register int size; svsp->labels_on = 0; if((vgacs[svsp->vga_charset].screen_size==SIZ_28ROWS) && svsp->force24) size = 4; else size = 3; p = (svsp->Crtat + (svsp->screen_rows * svsp->maxcol)); for(num = 0; num < (size * svsp->maxcol); num++) *p++ = ' '; } /*---------------------------------------------------------------------------* * (re-) display function key labels, row/col and status line *---------------------------------------------------------------------------*/ void fkl_on(struct video_state *svsp) { svsp->labels_on = 1; if(svsp->which_fkl == SYS_FKL) sw_sfkl(svsp); else if(svsp->which_fkl == USR_FKL) sw_ufkl(svsp); } /*---------------------------------------------------------------------------* * set emulation mode, switch between pure VTxxx mode and HP/VTxxx mode *---------------------------------------------------------------------------*/ void set_emulation_mode(struct video_state *svsp, int mode) { if(svsp->vt_pure_mode == mode) return; clr_parms(svsp); /* escape parameter init */ svsp->state = STATE_INIT; /* initial state */ svsp->scrr_beg = 0; /* start of scrolling region */ svsp->sc_flag = 0; /* invalidate saved cursor position */ svsp->transparent = 0; /* disable control code processing */ if(mode == M_HPVT) /* vt-pure -> hp/vt-mode */ { svsp->screen_rows = svsp->screen_rowsize - 3; if (svsp->force24 && svsp->screen_rows == 25) svsp->screen_rows = 24; if (svsp->row >= svsp->screen_rows) { /* Scroll up */ int nscroll = svsp->row + 1 - svsp->screen_rows; bcopy (svsp->Crtat + nscroll * svsp->maxcol, svsp->Crtat, svsp->screen_rows * svsp->maxcol * CHR); svsp->row -= nscroll; svsp->cur_offset -= nscroll * svsp->maxcol; } svsp->vt_pure_mode = M_HPVT; if (svsp->vs_tty) svsp->vs_tty->t_winsize.ws_row = svsp->screen_rows; svsp->scrr_len = svsp->screen_rows; svsp->scrr_end = svsp->scrr_len - 1; update_hp(svsp); } else if(mode == M_PUREVT) /* hp/vt-mode -> vt-pure */ { fillw(user_attr | ' ', (caddr_t)(svsp->Crtat + svsp->screen_rows * svsp->maxcol), (svsp->screen_rowsize - svsp->screen_rows) * svsp->maxcol); svsp->vt_pure_mode = M_PUREVT; svsp->screen_rows = svsp->screen_rowsize; if (svsp->force24 && svsp->screen_rows == 25) svsp->screen_rows = 24; if (svsp->vs_tty) svsp->vs_tty->t_winsize.ws_row = svsp->screen_rows; svsp->scrr_len = svsp->screen_rows; svsp->scrr_end = svsp->scrr_len - 1; } #if PCVT_SIGWINCH if (svsp->vs_tty && svsp->vs_tty->t_pgrp) pgsignal(svsp->vs_tty->t_pgrp, SIGWINCH, 1); #endif /* PCVT_SIGWINCH */ } /*---------------------------------------------------------------------------* * initialize user function key labels *---------------------------------------------------------------------------*/ void init_ufkl(struct video_state *svsp) { writefkl(0,(u_char *)" f1",svsp); /* init fkey labels */ writefkl(1,(u_char *)" f2",svsp); writefkl(2,(u_char *)" f3",svsp); writefkl(3,(u_char *)" f4",svsp); writefkl(4,(u_char *)" f5",svsp); writefkl(5,(u_char *)" f6",svsp); writefkl(6,(u_char *)" f7",svsp); writefkl(7,(u_char *)" f8",svsp); } /*---------------------------------------------------------------------------* * initialize system user function key labels *---------------------------------------------------------------------------*/ void init_sfkl(struct video_state *svsp) { /* 1234567812345678 */ if(can_do_132col) /* 1234567812345678 */ swritefkl(0,(u_char *)"132 COLUMNS ",svsp); else swritefkl(0,(u_char *)" ",svsp); /* 1234567812345678 */ swritefkl(1,(u_char *)"SOFT-RSTTERMINAL",svsp); if(svsp->force24) swritefkl(2,(u_char *)"FORCE24 ENABLE *",svsp); else swritefkl(2,(u_char *)"FORCE24 ENABLE ",svsp); #if PCVT_SHOWKEYS /* 1234567812345678 */ if(svsp == &vs[0]) swritefkl(3,(u_char *)"KEYBSCANDISPLAY ",svsp); else swritefkl(3,(u_char *)" ",svsp); #else swritefkl(3,(u_char *)" ",svsp); #endif /* PCVT_SHOWKEYS */ /* 1234567812345678 */ if(svsp->bell_on) swritefkl(4,(u_char *)"BELL ENABLE *",svsp); else swritefkl(4,(u_char *)"BELL ENABLE ",svsp); if(svsp->sevenbit) swritefkl(5,(u_char *)"8-BIT ENABLE ",svsp); else swritefkl(5,(u_char *)"8-BIT ENABLE *",svsp); swritefkl(6,(u_char *)"DISPLAY FUNCTNS ",svsp); swritefkl(7,(u_char *)"AUTOWRAPENABLE *",svsp); /* 1234567812345678 */ } /*---------------------------------------------------------------------------* * switch display to user function key labels *---------------------------------------------------------------------------*/ void sw_ufkl(struct video_state *svsp) { int i; svsp->which_fkl = USR_FKL; for(i = 0; i < 8; i++) wrfkl(i,svsp->ufkl[i],svsp); } /*---------------------------------------------------------------------------* * switch display to system function key labels *---------------------------------------------------------------------------*/ void sw_sfkl(struct video_state *svsp) { int i; svsp->which_fkl = SYS_FKL; for(i = 0; i < 8; i++) wrfkl(i,svsp->sfkl[i],svsp); } /*---------------------------------------------------------------------------* * toggle force 24 lines *---------------------------------------------------------------------------*/ void toggl_24l(struct video_state *svsp) { if(svsp->which_fkl == SYS_FKL) { if(svsp->force24) { svsp->force24 = 0; swritefkl(2,(u_char *)"FORCE24 ENABLE ",svsp); } else { svsp->force24 = 1; swritefkl(2,(u_char *)"FORCE24 ENABLE *",svsp); } set_screen_size(svsp, vgacs[(svsp->vga_charset)].screen_size); } } #if PCVT_SHOWKEYS /*---------------------------------------------------------------------------* * toggle keyboard scancode display *---------------------------------------------------------------------------*/ void toggl_kbddbg(struct video_state *svsp) { if((svsp->which_fkl == SYS_FKL) && (svsp == &vs[0])) { if(keyboard_show) { keyboard_show = 0; swritefkl(3,(u_char *)"KEYBSCANDISPLAY ",svsp); } else { keyboard_show = 1; swritefkl(3,(u_char *)"KEYBSCANDISPLAY*",svsp); } } } #endif /* PCVT_SHOWKEYS */ /*---------------------------------------------------------------------------* * toggle display functions *---------------------------------------------------------------------------*/ void toggl_dspf(struct video_state *svsp) { if(svsp->which_fkl == SYS_FKL) { if(svsp->dis_fnc) { svsp->dis_fnc = 0; swritefkl(6,(u_char *)"DISPLAY FUNCTNS ",svsp); } else { svsp->dis_fnc = 1; swritefkl(6,(u_char *)"DISPLAY FUNCTNS*",svsp); } } } /*---------------------------------------------------------------------------* * auto wrap on/off *---------------------------------------------------------------------------*/ void toggl_awm(struct video_state *svsp) { if(svsp->which_fkl == SYS_FKL) { if(svsp->m_awm) { svsp->m_awm = 0; swritefkl(7,(u_char *)"AUTOWRAPENABLE ",svsp); } else { svsp->m_awm = 1; swritefkl(7,(u_char *)"AUTOWRAPENABLE *",svsp); } } } /*---------------------------------------------------------------------------* * bell on/off *---------------------------------------------------------------------------*/ void toggl_bell(struct video_state *svsp) { if(svsp->which_fkl == SYS_FKL) { if(svsp->bell_on) { svsp->bell_on = 0; swritefkl(4,(u_char *)"BELL ENABLE ",svsp); } else { svsp->bell_on = 1; swritefkl(4,(u_char *)"BELL ENABLE *",svsp); } } } /*---------------------------------------------------------------------------* * 7/8 bit usage *---------------------------------------------------------------------------*/ void toggl_sevenbit(struct video_state *svsp) { if(svsp->which_fkl == SYS_FKL) { if(svsp->sevenbit) { svsp->sevenbit = 0; swritefkl(5,(u_char *)"8-BIT ENABLE *",svsp); } else { svsp->sevenbit = 1; swritefkl(5,(u_char *)"8-BIT ENABLE ",svsp); } } } /*---------------------------------------------------------------------------* * 80 / 132 columns *---------------------------------------------------------------------------*/ void toggl_columns(struct video_state *svsp) { if(svsp->which_fkl == SYS_FKL) { if(svsp->maxcol == SCR_COL132) { if(vt_col(svsp, SCR_COL80)) svsp->maxcol = 80; } else { if(vt_col(svsp, SCR_COL132)) svsp->maxcol = 132; } } } /*---------------------------------------------------------------------------* * toggle vga 80/132 column operation *---------------------------------------------------------------------------*/ int vt_col(struct video_state *svsp, int cols) { if(vga_col(svsp, cols) == 0) return(0); if(cols == SCR_COL80) swritefkl(0,(u_char *)"132 COLUMNS ",svsp); else swritefkl(0,(u_char *)"132 COLUMNS*",svsp); fillw(user_attr | ' ', (caddr_t)(svsp->Crtat), svsp->maxcol * svsp->screen_rowsize); clr_parms(svsp); /* escape parameter init */ svsp->state = STATE_INIT; /* initial state */ svsp->col = 0; /* init row */ svsp->row = 0; /* init col */ svsp->cur_offset = 0; /* cursor offset init */ svsp->sc_flag = 0; /* invalidate saved cursor position */ svsp->scrr_beg = 0; /* reset scrolling region */ svsp->scrr_len = svsp->screen_rows; /*reset scrolling region legnth */ svsp->scrr_end = svsp->scrr_len - 1; svsp->transparent = 0; /* disable control code processing */ svsp->selchar = 0; /* selective attr off */ vt_initsel(svsp); /* re-init sel attr */ update_hp(svsp); /* update labels, row/col, page ind */ /* Update winsize struct to reflect screen size */ if(svsp->vs_tty) { svsp->vs_tty->t_winsize.ws_row = svsp->screen_rows; svsp->vs_tty->t_winsize.ws_col = svsp->maxcol; svsp->vs_tty->t_winsize.ws_xpixel = (cols == SCR_COL80)? 720: 1056; svsp->vs_tty->t_winsize.ws_ypixel = 400; #if PCVT_SIGWINCH if(svsp->vs_tty->t_pgrp) pgsignal(svsp->vs_tty->t_pgrp, SIGWINCH, 1); #endif /* PCVT_SIGWINCH */ } return(1); } /*---------------------------------------------------------------------------* * update HP stuff on screen *---------------------------------------------------------------------------*/ void update_hp(struct video_state *svsp) { if(svsp->vt_pure_mode != M_HPVT) return; fillw (user_attr | ' ', (caddr_t)(svsp->Crtat + svsp->screen_rows * svsp->maxcol), (svsp->screen_rowsize - svsp->screen_rows) * svsp->maxcol); if (!svsp->labels_on) return; /* update fkey labels */ fkl_off(svsp); fkl_on(svsp); if(vsp == svsp) { /* update current displayed screen indicator */ *((svsp->Crtat + ((svsp->screen_rows + 2) * svsp->maxcol)) + svsp->maxcol - 3) = user_attr | '['; *((svsp->Crtat + ((svsp->screen_rows + 2) * svsp->maxcol)) + svsp->maxcol - 2) = user_attr | (current_video_screen + '0'); *((svsp->Crtat + ((svsp->screen_rows + 2) * svsp->maxcol)) + svsp->maxcol - 1) = user_attr | ']'; } } /*---------------------------------------------------------------------------* * initialize ANSI escape sequence parameter buffers *---------------------------------------------------------------------------*/ void clr_parms(struct video_state *svsp) { register int i; for(i=0; i < MAXPARMS; i++) svsp->parms[i] = 0; svsp->parmi = 0; } /*---------------------------------------------------------------------------* * * partial HP 2392 ANSI mode Emulator * ================================== * * this part tooks over the emulation of some escape sequences * needed to handle the function key labels * * They are modeled after the corresponding escape sequences * introduced with the HP2392 terminals from Hewlett-Packard. * * see: * "HP2392A, Display Terminal Reference Manual", * HP Manual Part Number 02390-90001 * and: * Reference Manual Supplement * "2392A Display Terminal Option 049, ANSI Operation" * HP Manual Part Number 02390-90023EN * *---------------------------------------------------------------------------*/ static void hp_entry(U_char ch, struct video_state *svsp) { switch(svsp->hp_state) { case SHP_INIT: switch(ch) { case 'f': svsp->hp_state = SHP_AND_F; svsp->attribute = 0; svsp->key = 0; svsp->l_len = 0; svsp->s_len = 0; svsp->i = 0; break; case 'j': svsp->m_len = 0; svsp->hp_state = SHP_AND_J; break; case 's': svsp->hp_state = SHP_AND_ETE; break; default: svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; break; } break; case SHP_AND_F: if((ch >= '0') && (ch <= '8')) { svsp->attribute = ch; svsp->hp_state = SHP_AND_Fa; } else { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } break; case SHP_AND_Fa: if(ch == 'a') svsp->hp_state = SHP_AND_Fak; else if(ch == 'k') { svsp->key = svsp->attribute; svsp->hp_state = SHP_AND_Fakd; } else { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } break; case SHP_AND_Fak: if((ch >= '1') && (ch <= '8')) { svsp->key = ch; svsp->hp_state = SHP_AND_Fak1; } else { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } break; case SHP_AND_Fak1: if(ch == 'k') svsp->hp_state = SHP_AND_Fakd; else { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } break; case SHP_AND_Fakd: if(svsp->l_len > 16) { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } else if(ch >= '0' && ch <= '9') { svsp->l_len *= 10; svsp->l_len += (ch -'0'); } else if(ch == 'd') svsp->hp_state = SHP_AND_FakdL; else { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } break; case SHP_AND_FakdL: if(svsp->s_len > 80) { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } else if(ch >= '0' && ch <= '9') { svsp->s_len *= 10; svsp->s_len += (ch -'0'); } else if(ch == 'L') { svsp->hp_state = SHP_AND_FakdLl; svsp->transparent = 1; } else { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; } break; case SHP_AND_FakdLl: svsp->l_buf[svsp->i] = ch; if(svsp->i >= svsp->l_len-1) { svsp->hp_state = SHP_AND_FakdLls; svsp->i = 0; if(svsp->s_len == 0) { svsp->state = STATE_INIT; svsp->hp_state = SHP_INIT; svsp->transparent = 0; svsp->i = 0; svsp->l_buf[svsp->l_len] = '\0'; svsp->s_buf[svsp->s_len] = '\0'; writefkl((svsp->key - '0' -1), svsp->l_buf, svsp); } } else svsp->i++; break; case SHP_AND_FakdLls: svsp->s_buf[svsp->i] = ch; if(svsp->i >= svsp->s_len-1) { svsp->state = STATE_INIT; svsp->hp_state = SHP_INIT; svsp->transparent = 0; svsp->i = 0; svsp->l_buf[svsp->l_len] = '\0'; svsp->s_buf[svsp->s_len] = '\0'; writefkl((svsp->key - '0' -1), svsp->l_buf, svsp); } else svsp->i++; break; case SHP_AND_J: switch(ch) { case '@': /* enable user keys, remove */ /* all labels & status from */ /* screen */ svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; fkl_off(svsp); break; case 'A': /* enable & display "modes" */ svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; fkl_on(svsp); sw_sfkl(svsp); break; case 'B': /* enable & display "user" */ svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; fkl_on(svsp); sw_ufkl(svsp); break; case 'C': /* remove (clear) status line*/ /* and restore current labels*/ svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; fkl_on(svsp); break; case 'R': /* enable usr/menu keys */ /* and fkey label modes */ svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; break; case 'S': /* disable usr/menu keys */ /* and fkey label modes */ svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* parameters for esc & j xx L mm */ svsp->m_len *= 10; svsp->m_len += (ch -'0'); break; case 'L': svsp->hp_state = SHP_AND_JL; svsp->i = 0; svsp->transparent = 1; break; default: svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; break; } break; case SHP_AND_JL: svsp->m_buf[svsp->i] = ch; if(svsp->i >= svsp->m_len-1) { svsp->state = STATE_INIT; svsp->hp_state = SHP_INIT; svsp->transparent = 0; svsp->i = 0; svsp->m_buf[svsp->m_len] = '\0'; /* display status line */ /* needs to be implemented */ /* see 2392 man, 3-14 */ } else svsp->i++; break; case SHP_AND_ETE: /* eat chars until uppercase */ if(ch >= '@' && ch <= 'Z') { svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; svsp->transparent = 0; } break; default: svsp->hp_state = SHP_INIT; svsp->state = STATE_INIT; svsp->transparent = 0; break; } } #endif /* NVT > 0 */ /* ------------------------- E O F ------------------------------------------*/