/* $NetBSD: wsemul_vt100.c,v 1.25 2004/03/24 17:26:53 drochner Exp $ */ /* * Copyright (c) 1998 * Matthias Drochner. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include __KERNEL_RCSID(0, "$NetBSD: wsemul_vt100.c,v 1.25 2004/03/24 17:26:53 drochner Exp $"); #include #include #include #include #include #include #include #include #include #include #include "opt_wskernattr.h" void *wsemul_vt100_cnattach(const struct wsscreen_descr *, void *, int, int, long); void *wsemul_vt100_attach(int console, const struct wsscreen_descr *, void *, int, int, void *, long); void wsemul_vt100_output(void *cookie, const u_char *data, u_int count, int); void wsemul_vt100_detach(void *cookie, u_int *crowp, u_int *ccolp); void wsemul_vt100_resetop(void *, enum wsemul_resetops); const struct wsemul_ops wsemul_vt100_ops = { "vt100", wsemul_vt100_cnattach, wsemul_vt100_attach, wsemul_vt100_output, wsemul_vt100_translate, wsemul_vt100_detach, wsemul_vt100_resetop }; struct wsemul_vt100_emuldata wsemul_vt100_console_emuldata; static void wsemul_vt100_init(struct wsemul_vt100_emuldata *, const struct wsscreen_descr *, void *, int, int, long); static void wsemul_vt100_output_normal(struct wsemul_vt100_emuldata *, u_char, int); static void wsemul_vt100_output_c0c1(struct wsemul_vt100_emuldata *, u_char, int); static void wsemul_vt100_nextline(struct wsemul_vt100_emuldata *); typedef u_int vt100_handler(struct wsemul_vt100_emuldata *, u_char); static vt100_handler wsemul_vt100_output_esc, wsemul_vt100_output_csi, wsemul_vt100_output_scs94, wsemul_vt100_output_scs94_percent, wsemul_vt100_output_scs96, wsemul_vt100_output_scs96_percent, wsemul_vt100_output_esc_hash, wsemul_vt100_output_esc_spc, wsemul_vt100_output_string, wsemul_vt100_output_string_esc, wsemul_vt100_output_dcs, wsemul_vt100_output_dcs_dollar; #define VT100_EMUL_STATE_NORMAL 0 /* normal processing */ #define VT100_EMUL_STATE_ESC 1 /* got ESC */ #define VT100_EMUL_STATE_CSI 2 /* got CSI (ESC[) */ #define VT100_EMUL_STATE_SCS94 3 /* got ESC{()*+} */ #define VT100_EMUL_STATE_SCS94_PERCENT 4 /* got ESC{()*+}% */ #define VT100_EMUL_STATE_SCS96 5 /* got ESC{-./} */ #define VT100_EMUL_STATE_SCS96_PERCENT 6 /* got ESC{-./}% */ #define VT100_EMUL_STATE_ESC_HASH 7 /* got ESC# */ #define VT100_EMUL_STATE_ESC_SPC 8 /* got ESC */ #define VT100_EMUL_STATE_STRING 9 /* waiting for ST (ESC\) */ #define VT100_EMUL_STATE_STRING_ESC 10 /* waiting for ST, got ESC */ #define VT100_EMUL_STATE_DCS 11 /* got DCS (ESC P) */ #define VT100_EMUL_STATE_DCS_DOLLAR 12 /* got DCS

$ */ vt100_handler *vt100_output[] = { wsemul_vt100_output_esc, wsemul_vt100_output_csi, wsemul_vt100_output_scs94, wsemul_vt100_output_scs94_percent, wsemul_vt100_output_scs96, wsemul_vt100_output_scs96_percent, wsemul_vt100_output_esc_hash, wsemul_vt100_output_esc_spc, wsemul_vt100_output_string, wsemul_vt100_output_string_esc, wsemul_vt100_output_dcs, wsemul_vt100_output_dcs_dollar, }; static void wsemul_vt100_init(struct wsemul_vt100_emuldata *edp, const struct wsscreen_descr *type, void *cookie, int ccol, int crow, long defattr) { edp->emulops = type->textops; edp->emulcookie = cookie; edp->scrcapabilities = type->capabilities; edp->nrows = type->nrows; edp->ncols = type->ncols; edp->crow = crow; edp->ccol = ccol; edp->defattr = defattr; } void * wsemul_vt100_cnattach(const struct wsscreen_descr *type, void *cookie, int ccol, int crow, long defattr) { struct wsemul_vt100_emuldata *edp; #if defined(WS_KERNEL_FG) || defined(WS_KERNEL_BG) || \ defined(WS_KERNEL_COLATTR) || defined(WS_KERNEL_MONOATTR) int res; #endif edp = &wsemul_vt100_console_emuldata; wsemul_vt100_init(edp, type, cookie, ccol, crow, defattr); #ifdef DIAGNOSTIC edp->console = 1; #endif edp->cbcookie = NULL; #if defined(WS_KERNEL_FG) || defined(WS_KERNEL_BG) || \ defined(WS_KERNEL_COLATTR) || defined(WS_KERNEL_MONOATTR) #ifndef WS_KERNEL_FG #define WS_KERNEL_FG WSCOL_WHITE #endif #ifndef WS_KERNEL_BG #define WS_KERNEL_BG WSCOL_BLACK #endif #ifndef WS_KERNEL_COLATTR #define WS_KERNEL_COLATTR 0 #endif #ifndef WS_KERNEL_MONOATTR #define WS_KERNEL_MONOATTR 0 #endif if (type->capabilities & WSSCREEN_WSCOLORS) res = (*edp->emulops->allocattr)(cookie, WS_KERNEL_FG, WS_KERNEL_BG, WS_KERNEL_COLATTR | WSATTR_WSCOLORS, &edp->kernattr); else res = (*edp->emulops->allocattr)(cookie, 0, 0, WS_KERNEL_MONOATTR, &edp->kernattr); if (res) #endif edp->kernattr = defattr; edp->tabs = 0; edp->dblwid = 0; edp->dw = 0; edp->dcsarg = 0; edp->isolatin1tab = edp->decgraphtab = edp->dectechtab = 0; edp->nrctab = 0; wsemul_vt100_reset(edp); return (edp); } void * wsemul_vt100_attach(int console, const struct wsscreen_descr *type, void *cookie, int ccol, int crow, void *cbcookie, long defattr) { struct wsemul_vt100_emuldata *edp; if (console) { edp = &wsemul_vt100_console_emuldata; #ifdef DIAGNOSTIC KASSERT(edp->console == 1); #endif } else { edp = malloc(sizeof *edp, M_DEVBUF, M_WAITOK); wsemul_vt100_init(edp, type, cookie, ccol, crow, defattr); #ifdef DIAGNOSTIC edp->console = 0; #endif } edp->cbcookie = cbcookie; edp->tabs = malloc(edp->ncols, M_DEVBUF, M_NOWAIT); edp->dblwid = malloc(edp->nrows, M_DEVBUF, M_NOWAIT|M_ZERO); edp->dw = 0; edp->dcsarg = malloc(DCS_MAXLEN, M_DEVBUF, M_NOWAIT); edp->isolatin1tab = malloc(128 * sizeof(int), M_DEVBUF, M_NOWAIT); edp->decgraphtab = malloc(128 * sizeof(int), M_DEVBUF, M_NOWAIT); edp->dectechtab = malloc(128 * sizeof(int), M_DEVBUF, M_NOWAIT); edp->nrctab = malloc(128 * sizeof(int), M_DEVBUF, M_NOWAIT); vt100_initchartables(edp); wsemul_vt100_reset(edp); return (edp); } void wsemul_vt100_detach(void *cookie, u_int *crowp, u_int *ccolp) { struct wsemul_vt100_emuldata *edp = cookie; *crowp = edp->crow; *ccolp = edp->ccol; #define f(ptr) if (ptr) {free(ptr, M_DEVBUF); ptr = 0;} f(edp->tabs) f(edp->dblwid) f(edp->dcsarg) f(edp->isolatin1tab) f(edp->decgraphtab) f(edp->dectechtab) f(edp->nrctab) #undef f if (edp != &wsemul_vt100_console_emuldata) free(edp, M_DEVBUF); } void wsemul_vt100_resetop(void *cookie, enum wsemul_resetops op) { struct wsemul_vt100_emuldata *edp = cookie; switch (op) { case WSEMUL_RESET: wsemul_vt100_reset(edp); break; case WSEMUL_SYNCFONT: vt100_initchartables(edp); break; case WSEMUL_CLEARSCREEN: wsemul_vt100_ed(edp, 2); edp->ccol = edp->crow = 0; (*edp->emulops->cursor)(edp->emulcookie, edp->flags & VTFL_CURSORON, 0, 0); break; default: break; } } void wsemul_vt100_reset(struct wsemul_vt100_emuldata *edp) { int i; edp->state = VT100_EMUL_STATE_NORMAL; edp->flags = VTFL_DECAWM | VTFL_CURSORON; edp->bkgdattr = edp->curattr = edp->defattr; edp->attrflags = 0; edp->fgcol = WSCOL_WHITE; edp->bgcol = WSCOL_BLACK; edp->scrreg_startrow = 0; edp->scrreg_nrows = edp->nrows; if (edp->tabs) { memset(edp->tabs, 0, edp->ncols); for (i = 8; i < edp->ncols; i += 8) edp->tabs[i] = 1; } edp->dcspos = 0; edp->dcstype = 0; edp->chartab_G[0] = 0; edp->chartab_G[1] = edp->nrctab; /* ??? */ edp->chartab_G[2] = edp->isolatin1tab; edp->chartab_G[3] = edp->isolatin1tab; edp->chartab0 = 0; edp->chartab1 = 2; edp->sschartab = 0; } /* * now all the state machine bits */ /* * Move the cursor to the next line if possible. If the cursor is at * the bottom of the scroll area, then scroll it up. If the cursor is * at the bottom of the screen then don't move it down. */ static void wsemul_vt100_nextline(struct wsemul_vt100_emuldata *edp) { if (ROWS_BELOW == 0) { /* Bottom of the scroll region. */ wsemul_vt100_scrollup(edp, 1); } else { if ((edp->crow+1) < edp->nrows) /* Cursor not at the bottom of the screen. */ edp->crow++; CHECK_DW; } } static void wsemul_vt100_output_normal(struct wsemul_vt100_emuldata *edp, u_char c, int kernel) { u_int *ct, dc; if ((edp->flags & (VTFL_LASTCHAR | VTFL_DECAWM)) == (VTFL_LASTCHAR | VTFL_DECAWM)) { wsemul_vt100_nextline(edp); edp->ccol = 0; edp->flags &= ~VTFL_LASTCHAR; } if (c & 0x80) { c &= 0x7f; ct = edp->chartab_G[edp->chartab1]; } else { if (edp->sschartab) { ct = edp->chartab_G[edp->sschartab]; edp->sschartab = 0; } else ct = edp->chartab_G[edp->chartab0]; } dc = (ct ? ct[c] : c); if ((edp->flags & VTFL_INSERTMODE) && COLS_LEFT) COPYCOLS(edp->ccol, edp->ccol + 1, COLS_LEFT); (*edp->emulops->putchar)(edp->emulcookie, edp->crow, edp->ccol << edp->dw, dc, kernel ? edp->kernattr : edp->curattr); if (COLS_LEFT) edp->ccol++; else edp->flags |= VTFL_LASTCHAR; } static void wsemul_vt100_output_c0c1(struct wsemul_vt100_emuldata *edp, u_char c, int kernel) { u_int n; switch (c) { case ASCII_NUL: default: /* ignore */ break; case ASCII_BEL: wsdisplay_emulbell(edp->cbcookie); break; case ASCII_BS: if (edp->ccol > 0) { edp->ccol--; edp->flags &= ~VTFL_LASTCHAR; } break; case ASCII_CR: edp->ccol = 0; edp->flags &= ~VTFL_LASTCHAR; break; case ASCII_HT: if (edp->tabs) { if (!COLS_LEFT) break; for (n = edp->ccol + 1; n < NCOLS - 1; n++) if (edp->tabs[n]) break; } else { n = edp->ccol + min(8 - (edp->ccol & 7), COLS_LEFT); } edp->ccol = n; break; case ASCII_SO: /* LS1 */ edp->chartab0 = 1; break; case ASCII_SI: /* LS0 */ edp->chartab0 = 0; break; case ASCII_ESC: if (kernel) { printf("wsemul_vt100_output_c0c1: ESC in kernel output ignored\n"); break; /* ignore the ESC */ } if (edp->state == VT100_EMUL_STATE_STRING) { /* might be a string end */ edp->state = VT100_EMUL_STATE_STRING_ESC; } else { /* XXX cancel current escape sequence */ edp->state = VT100_EMUL_STATE_ESC; } break; #if 0 case CSI: /* 8-bit */ /* XXX cancel current escape sequence */ edp->nargs = 0; memset(edp->args, 0, sizeof (edp->args)); edp->modif1 = edp->modif2 = '\0'; edp->state = VT100_EMUL_STATE_CSI; break; case DCS: /* 8-bit */ /* XXX cancel current escape sequence */ edp->nargs = 0; memset(edp->args, 0, sizeof (edp->args)); edp->state = VT100_EMUL_STATE_DCS; break; case ST: /* string end 8-bit */ /* XXX only in VT100_EMUL_STATE_STRING */ wsemul_vt100_handle_dcs(edp); return (VT100_EMUL_STATE_NORMAL); #endif case ASCII_LF: case ASCII_VT: case ASCII_FF: wsemul_vt100_nextline(edp); break; } } static u_int wsemul_vt100_output_esc(struct wsemul_vt100_emuldata *edp, u_char c) { u_int newstate = VT100_EMUL_STATE_NORMAL; int i; switch (c) { case '[': /* CSI */ edp->nargs = 0; memset(edp->args, 0, sizeof (edp->args)); edp->modif1 = edp->modif2 = '\0'; newstate = VT100_EMUL_STATE_CSI; break; case '7': /* DECSC */ edp->flags |= VTFL_SAVEDCURS; edp->savedcursor_row = edp->crow; edp->savedcursor_col = edp->ccol; edp->savedattr = edp->curattr; edp->savedbkgdattr = edp->bkgdattr; edp->savedattrflags = edp->attrflags; edp->savedfgcol = edp->fgcol; edp->savedbgcol = edp->bgcol; for (i = 0; i < 4; i++) edp->savedchartab_G[i] = edp->chartab_G[i]; edp->savedchartab0 = edp->chartab0; edp->savedchartab1 = edp->chartab1; break; case '8': /* DECRC */ if ((edp->flags & VTFL_SAVEDCURS) == 0) break; edp->crow = edp->savedcursor_row; edp->ccol = edp->savedcursor_col; edp->curattr = edp->savedattr; edp->bkgdattr = edp->savedbkgdattr; edp->attrflags = edp->savedattrflags; edp->fgcol = edp->savedfgcol; edp->bgcol = edp->savedbgcol; for (i = 0; i < 4; i++) edp->chartab_G[i] = edp->savedchartab_G[i]; edp->chartab0 = edp->savedchartab0; edp->chartab1 = edp->savedchartab1; break; case '=': /* DECKPAM application mode */ edp->flags |= VTFL_APPLKEYPAD; break; case '>': /* DECKPNM numeric mode */ edp->flags &= ~VTFL_APPLKEYPAD; break; case 'E': /* NEL */ edp->ccol = 0; /* FALLTHRU */ case 'D': /* IND */ wsemul_vt100_nextline(edp); break; case 'H': /* HTS */ KASSERT(edp->tabs != 0); edp->tabs[edp->ccol] = 1; break; case '~': /* LS1R */ edp->chartab1 = 1; break; case 'n': /* LS2 */ edp->chartab0 = 2; break; case '}': /* LS2R */ edp->chartab1 = 2; break; case 'o': /* LS3 */ edp->chartab0 = 3; break; case '|': /* LS3R */ edp->chartab1 = 3; break; case 'N': /* SS2 */ edp->sschartab = 2; break; case 'O': /* SS3 */ edp->sschartab = 3; break; case 'M': /* RI */ if (ROWS_ABOVE > 0) { edp->crow--; CHECK_DW; break; } wsemul_vt100_scrolldown(edp, 1); break; case 'P': /* DCS */ edp->nargs = 0; memset(edp->args, 0, sizeof (edp->args)); newstate = VT100_EMUL_STATE_DCS; break; case 'c': /* RIS */ wsemul_vt100_reset(edp); wsemul_vt100_ed(edp, 2); edp->ccol = edp->crow = 0; break; case '(': case ')': case '*': case '+': /* SCS */ edp->designating = c - '('; newstate = VT100_EMUL_STATE_SCS94; break; case '-': case '.': case '/': /* SCS */ edp->designating = c - '-' + 1; newstate = VT100_EMUL_STATE_SCS96; break; case '#': newstate = VT100_EMUL_STATE_ESC_HASH; break; case ' ': /* 7/8 bit */ newstate = VT100_EMUL_STATE_ESC_SPC; break; case ']': /* OSC operating system command */ case '^': /* PM privacy message */ case '_': /* APC application program command */ /* ignored */ newstate = VT100_EMUL_STATE_STRING; break; case '<': /* exit VT52 mode - ignored */ break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC%c unknown\n", c); #endif break; } return (newstate); } static u_int wsemul_vt100_output_scs94(struct wsemul_vt100_emuldata *edp, u_char c) { u_int newstate = VT100_EMUL_STATE_NORMAL; switch (c) { case '%': /* probably DEC supplemental graphic */ newstate = VT100_EMUL_STATE_SCS94_PERCENT; break; case 'A': /* british / national */ edp->chartab_G[edp->designating] = edp->nrctab; break; case 'B': /* ASCII */ edp->chartab_G[edp->designating] = 0; break; case '<': /* user preferred supplemental */ /* XXX not really "user" preferred */ edp->chartab_G[edp->designating] = edp->isolatin1tab; break; case '0': /* DEC special graphic */ edp->chartab_G[edp->designating] = edp->decgraphtab; break; case '>': /* DEC tech */ edp->chartab_G[edp->designating] = edp->dectechtab; break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC%c%c unknown\n", edp->designating + '(', c); #endif break; } return (newstate); } static u_int wsemul_vt100_output_scs94_percent(struct wsemul_vt100_emuldata *edp, u_char c) { switch (c) { case '5': /* DEC supplemental graphic */ /* XXX there are differences */ edp->chartab_G[edp->designating] = edp->isolatin1tab; break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC%c%%%c unknown\n", edp->designating + '(', c); #endif break; } return (VT100_EMUL_STATE_NORMAL); } static u_int wsemul_vt100_output_scs96(struct wsemul_vt100_emuldata *edp, u_char c) { u_int newstate = VT100_EMUL_STATE_NORMAL; int nrc; switch (c) { case '%': /* probably portugese */ newstate = VT100_EMUL_STATE_SCS96_PERCENT; break; case 'A': /* ISO-latin-1 supplemental */ edp->chartab_G[edp->designating] = edp->isolatin1tab; break; case '4': /* dutch */ nrc = 1; goto setnrc; case '5': case 'C': /* finnish */ nrc = 2; goto setnrc; case 'R': /* french */ nrc = 3; goto setnrc; case 'Q': /* french canadian */ nrc = 4; goto setnrc; case 'K': /* german */ nrc = 5; goto setnrc; case 'Y': /* italian */ nrc = 6; goto setnrc; case 'E': case '6': /* norwegian / danish */ nrc = 7; goto setnrc; case 'Z': /* spanish */ nrc = 9; goto setnrc; case '7': case 'H': /* swedish */ nrc = 10; goto setnrc; case '=': /* swiss */ nrc = 11; setnrc: vt100_setnrc(edp, nrc); /* what table ??? */ break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC%c%c unknown\n", edp->designating + '-' - 1, c); #endif break; } return (newstate); } static u_int wsemul_vt100_output_scs96_percent(struct wsemul_vt100_emuldata *edp, u_char c) { switch (c) { case '6': /* portugese */ vt100_setnrc(edp, 8); break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC%c%%%c unknown\n", edp->designating + '-', c); #endif break; } return (VT100_EMUL_STATE_NORMAL); } static u_int wsemul_vt100_output_esc_spc(struct wsemul_vt100_emuldata *edp, u_char c) { switch (c) { case 'F': /* 7-bit controls */ case 'G': /* 8-bit controls */ #ifdef VT100_PRINTNOTIMPL printf("ESC%c ignored\n", c); #endif break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC%c unknown\n", c); #endif break; } return (VT100_EMUL_STATE_NORMAL); } static u_int wsemul_vt100_output_string(struct wsemul_vt100_emuldata *edp, u_char c) { if (edp->dcstype && edp->dcspos < DCS_MAXLEN) edp->dcsarg[edp->dcspos++] = c; return (VT100_EMUL_STATE_STRING); } static u_int wsemul_vt100_output_string_esc(struct wsemul_vt100_emuldata *edp, u_char c) { if (c == '\\') { /* ST complete */ wsemul_vt100_handle_dcs(edp); return (VT100_EMUL_STATE_NORMAL); } else return (VT100_EMUL_STATE_STRING); } static u_int wsemul_vt100_output_dcs(struct wsemul_vt100_emuldata *edp, u_char c) { u_int newstate = VT100_EMUL_STATE_DCS; switch (c) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* argument digit */ if (edp->nargs > VT100_EMUL_NARGS - 1) break; edp->args[edp->nargs] = (edp->args[edp->nargs] * 10) + (c - '0'); break; case ';': /* argument terminator */ edp->nargs++; break; default: edp->nargs++; if (edp->nargs > VT100_EMUL_NARGS) { #ifdef VT100_DEBUG printf("vt100: too many arguments\n"); #endif edp->nargs = VT100_EMUL_NARGS; } newstate = VT100_EMUL_STATE_STRING; switch (c) { case '$': newstate = VT100_EMUL_STATE_DCS_DOLLAR; break; case '{': /* DECDLD soft charset */ case '!': /* DECRQUPSS user preferred supplemental set */ /* 'u' must follow - need another state */ case '|': /* DECUDK program F6..F20 */ #ifdef VT100_PRINTNOTIMPL printf("DCS%c ignored\n", c); #endif break; default: #ifdef VT100_PRINTUNKNOWN printf("DCS%c (%d, %d) unknown\n", c, ARG(0), ARG(1)); #endif break; } } return (newstate); } static u_int wsemul_vt100_output_dcs_dollar(struct wsemul_vt100_emuldata *edp, u_char c) { switch (c) { case 'p': /* DECRSTS terminal state restore */ case 'q': /* DECRQSS control function request */ #ifdef VT100_PRINTNOTIMPL printf("DCS$%c ignored\n", c); #endif break; case 't': /* DECRSPS restore presentation state */ switch (ARG(0)) { case 0: /* error */ break; case 1: /* cursor information restore */ #ifdef VT100_PRINTNOTIMPL printf("DCS1$t ignored\n"); #endif break; case 2: /* tab stop restore */ edp->dcspos = 0; edp->dcstype = DCSTYPE_TABRESTORE; break; default: #ifdef VT100_PRINTUNKNOWN printf("DCS%d$t unknown\n", ARG(0)); #endif break; } break; default: #ifdef VT100_PRINTUNKNOWN printf("DCS$%c (%d, %d) unknown\n", c, ARG(0), ARG(1)); #endif break; } return (VT100_EMUL_STATE_STRING); } static u_int wsemul_vt100_output_esc_hash(struct wsemul_vt100_emuldata *edp, u_char c) { int i, j; switch (c) { case '5': /* DECSWL single width, single height */ if (edp->dw) { for (i = 0; i < edp->ncols / 2; i++) (*edp->emulops->copycols)(edp->emulcookie, edp->crow, 2 * i, i, 1); (*edp->emulops->erasecols)(edp->emulcookie, edp->crow, i, edp->ncols - i, edp->bkgdattr); edp->dblwid[edp->crow] = 0; edp->dw = 0; } break; case '6': /* DECDWL double width, single height */ case '3': /* DECDHL double width, double height, top half */ case '4': /* DECDHL double width, double height, bottom half */ if (!edp->dw) { for (i = edp->ncols / 2 - 1; i >= 0; i--) (*edp->emulops->copycols)(edp->emulcookie, edp->crow, i, 2 * i, 1); for (i = 0; i < edp->ncols / 2; i++) (*edp->emulops->erasecols)(edp->emulcookie, edp->crow, 2 * i + 1, 1, edp->bkgdattr); edp->dblwid[edp->crow] = 1; edp->dw = 1; if (edp->ccol > (edp->ncols >> 1) - 1) edp->ccol = (edp->ncols >> 1) - 1; } break; case '8': /* DECALN */ for (i = 0; i < edp->nrows; i++) for (j = 0; j < edp->ncols; j++) (*edp->emulops->putchar)(edp->emulcookie, i, j, 'E', edp->curattr); edp->ccol = 0; edp->crow = 0; break; default: #ifdef VT100_PRINTUNKNOWN printf("ESC#%c unknown\n", c); #endif break; } return (VT100_EMUL_STATE_NORMAL); } static u_int wsemul_vt100_output_csi(struct wsemul_vt100_emuldata *edp, u_char c) { u_int newstate = VT100_EMUL_STATE_CSI; switch (c) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* argument digit */ if (edp->nargs > VT100_EMUL_NARGS - 1) break; edp->args[edp->nargs] = (edp->args[edp->nargs] * 10) + (c - '0'); break; case ';': /* argument terminator */ edp->nargs++; break; case '?': /* DEC specific */ case '>': /* DA query */ edp->modif1 = c; break; case '!': case '"': case '$': case '&': edp->modif2 = c; break; default: /* end of escape sequence */ edp->nargs++; if (edp->nargs > VT100_EMUL_NARGS) { #ifdef VT100_DEBUG printf("vt100: too many arguments\n"); #endif edp->nargs = VT100_EMUL_NARGS; } wsemul_vt100_handle_csi(edp, c); newstate = VT100_EMUL_STATE_NORMAL; break; } return (newstate); } void wsemul_vt100_output(void *cookie, const u_char *data, u_int count, int kernel) { struct wsemul_vt100_emuldata *edp = cookie; #ifdef DIAGNOSTIC if (kernel && !edp->console) panic("wsemul_vt100_output: kernel output, not console"); #endif if (edp->flags & VTFL_CURSORON) (*edp->emulops->cursor)(edp->emulcookie, 0, edp->crow, edp->ccol << edp->dw); for (; count > 0; data++, count--) { if ((*data & 0x7f) < 0x20) { wsemul_vt100_output_c0c1(edp, *data, kernel); continue; } if (edp->state == VT100_EMUL_STATE_NORMAL || kernel) { wsemul_vt100_output_normal(edp, *data, kernel); continue; } #ifdef DIAGNOSTIC if (edp->state > sizeof(vt100_output) / sizeof(vt100_output[0])) panic("wsemul_vt100: invalid state %d", edp->state); #endif edp->state = vt100_output[edp->state - 1](edp, *data); } if (edp->flags & VTFL_CURSORON) (*edp->emulops->cursor)(edp->emulcookie, 1, edp->crow, edp->ccol << edp->dw); }