/* $OpenBSD: map3270.c,v 1.4 2001/11/19 19:02:16 mpech Exp $ */ /*- * Copyright (c) 1988 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. */ #ifndef lint /*static char sccsid[] = "from: @(#)map3270.c 4.2 (Berkeley) 4/26/91";*/ static char rcsid[] = "$OpenBSD: map3270.c,v 1.4 2001/11/19 19:02:16 mpech Exp $"; #endif /* not lint */ /* This program reads a description file, somewhat like /etc/termcap, that describes the mapping between the current terminal's keyboard and a 3270 keyboard. */ #ifdef DOCUMENTATION_ONLY /* here is a sample (very small) entry... # this table is sensitive to position on a line. In particular, # a terminal definition for a terminal is terminated whenever a # (non-comment) line beginning in column one is found. # # this is an entry to map tvi924 to 3270 keys... v8|tvi924|924|televideo model 924 { pfk1 = '\E1'; pfk2 = '\E2'; clear = '^z'; # clear the screen } */ #endif /* DOCUMENTATION_ONLY */ #include #include #if defined(unix) #include #else /* defined(unix) */ #include #endif /* defined(unix) */ #define IsPrint(c) ((isprint(c) && !isspace(c)) || ((c) == ' ')) #include "state.h" #include "map3270.h" #include "../general/globals.h" /* this is the list of types returned by the lex processor */ #define LEX_CHAR 400 /* plain unadorned character */ #define LEX_ESCAPED LEX_CHAR+1 /* escaped with \ */ #define LEX_CARETED LEX_ESCAPED+1 /* escaped with ^ */ #define LEX_END_OF_FILE LEX_CARETED+1 /* end of file encountered */ #define LEX_ILLEGAL LEX_END_OF_FILE+1 /* trailing escape character */ /* the following is part of our character set dependancy... */ #define ESCAPE 0x1b #define TAB 0x09 #define NEWLINE 0x0a #define CARRIAGE_RETURN 0x0d typedef struct { int type; /* LEX_* - type of character */ int value; /* character this was */ } lexicon; typedef struct { int length; /* length of character string */ char array[500]; /* character string */ } stringWithLength; #define panic(s) { fprintf(stderr, "%s", s); exit(1); } static state firstentry = { 0, STATE_NULL, 0, 0 }; static state *headOfQueue = &firstentry; /* the following is a primitive adm3a table, to be used when nothing * else seems to be avaliable. */ #ifdef DEBUG static int debug = 0; /* debug flag (for debuggin tables) */ #endif /* DEBUG */ static int (*GetTc)(); static int doPaste = 1; /* should we have side effects */ static int picky = 0; /* do we complain of unknown functions? */ static char usePointer = 0; /* use pointer, or file */ static FILE *ourFile= 0; static char *environPointer = 0;/* if non-zero, point to input * string in core. */ static char **whichkey = 0; static char *keysgeneric[] = { #include "default.map" /* Define the default default */ 0, /* Terminate list of entries */ }; ; static int Empty = 1, /* is the unget lifo empty? */ Full = 0; /* is the unget lifo full? */ static lexicon lifo[200] = { 0 }; /* character stack for parser */ static int rp = 0, /* read pointer into lifo */ wp = 0; /* write pointer into lifo */ static int GetC() { int character; if (usePointer) { if ((*environPointer) == 0) { /* * If we have reached the end of this string, go on to * the next (if there is a next). */ if (whichkey == 0) { static char suffix = 'A'; /* From environment */ char envname[9]; extern char *getenv(); (void) sprintf(envname, "MAP3270%c", suffix++); environPointer = getenv(envname); } else { whichkey++; /* default map */ environPointer = *whichkey; } } if (*environPointer) { character = 0xff&*environPointer++; } else { character = EOF; } } else { character = getc(ourFile); } return(character); } static lexicon Get() { lexicon c; lexicon *pC = &c; int character; if (!Empty) { *pC = lifo[rp]; rp++; if (rp == sizeof lifo/sizeof (lexicon)) { rp = 0; } if (rp == wp) { Empty = 1; } Full = 0; } else { character = GetC(); switch (character) { case EOF: pC->type = LEX_END_OF_FILE; break; case '^': character = GetC(); if (!IsPrint(character)) { pC->type = LEX_ILLEGAL; } else { pC->type = LEX_CARETED; if (character == '?') { character |= 0x40; /* rubout */ } else { character &= 0x1f; } } break; case '\\': character = GetC(); if (!IsPrint(character)) { pC->type = LEX_ILLEGAL; } else { pC->type = LEX_ESCAPED; switch (character) { case 'E': case 'e': character = ESCAPE; break; case 't': character = TAB; break; case 'n': character = NEWLINE; break; case 'r': character = CARRIAGE_RETURN; break; default: pC->type = LEX_ILLEGAL; break; } } break; default: if ((IsPrint(character)) || isspace(character)) { pC->type = LEX_CHAR; } else { pC->type = LEX_ILLEGAL; } break; } pC->value = character; } return(*pC); } static void UnGet(c) lexicon c; /* character to unget */ { if (Full) { fprintf(stderr, "attempt to put too many characters in lifo\n"); panic("map3270"); /* NOTREACHED */ } else { lifo[wp] = c; wp++; if (wp == sizeof lifo/sizeof (lexicon)) { wp = 0; } if (wp == rp) { Full = 1; } Empty = 0; } } /* * Construct a control character sequence * for a special character. */ char * uncontrol(c) int c; { static char buf[3]; if (c == 0x7f) return ("^?"); if (c == '\377') { return "-1"; } if (c >= 0x20) { buf[0] = c; buf[1] = 0; } else { buf[0] = '^'; buf[1] = '@'+c; buf[2] = 0; } return (buf); } /* compare two strings, ignoring case */ ustrcmp(string1, string2) char *string1; char *string2; { int c1, c2; while ((c1 = (unsigned char) *string1++) != 0) { if (isupper(c1)) { c1 = tolower(c1); } if (isupper(c2 = (unsigned char) *string2++)) { c2 = tolower(c2); } if (c1 < c2) { return(-1); } else if (c1 > c2) { return(1); } } if (*string2) { return(-1); } else { return(0); } } static stringWithLength * GetQuotedString() { lexicon lex; static stringWithLength output = { 0 }; /* where return value is held */ char *pointer = output.array; lex = Get(); if ((lex.type != LEX_CHAR) || (lex.value != '\'')) { UnGet(lex); return(0); } while (1) { lex = Get(); if ((lex.type == LEX_CHAR) && (lex.value == '\'')) { break; } if ((lex.type == LEX_CHAR) && !IsPrint(lex.value)) { UnGet(lex); return(0); /* illegal character in quoted string */ } if (pointer >= output.array+sizeof output.array) { return(0); /* too long */ } *pointer++ = lex.value; } output.length = pointer-output.array; return(&output); } #ifdef NOTUSED static stringWithLength * GetCharString() { lexicon lex; static stringWithLength output; char *pointer = output.array; lex = Get(); while ((lex.type == LEX_CHAR) && !isspace(lex.value) && (lex.value != '=')) { *pointer++ = lex.value; lex = Get(); if (pointer >= output.array + sizeof output.array) { return(0); /* too long */ } } UnGet(lex); output.length = pointer-output.array; return(&output); } #endif /* NOTUSED */ static GetCharacter(character) int character; /* desired character */ { lexicon lex; lex = Get(); if ((lex.type != LEX_CHAR) || (lex.value != character)) { UnGet(lex); return(0); } return(1); } #ifdef NOTUSED static GetString(string) char *string; /* string to get */ { lexicon lex; while (*string) { lex = Get(); if ((lex.type != LEX_CHAR) || (lex.value != *string&0xff)) { UnGet(lex); return(0); /* XXX restore to state on entry */ } string++; } return(1); } #endif /* NOTUSED */ static stringWithLength * GetAlphaMericString() { lexicon lex; static stringWithLength output = { 0 }; char *pointer = output.array; # define IsAlnum(c) (isalnum(c) || (c == '_') \ || (c == '-') || (c == '.')) lex = Get(); if ((lex.type != LEX_CHAR) || !IsAlnum(lex.value)) { UnGet(lex); return(0); } while ((lex.type == LEX_CHAR) && IsAlnum(lex.value)) { *pointer++ = lex.value; lex = Get(); } UnGet(lex); *pointer = 0; output.length = pointer-output.array; return(&output); } /* eat up characters until a new line, or end of file. returns terminating character. */ static lexicon EatToNL() { lexicon lex; lex = Get(); while (!((lex.type != LEX_ESCAPED) && (lex.type != LEX_CARETED) && (lex.value == '\n')) && (!(lex.type == LEX_END_OF_FILE))) { lex = Get(); } if (lex.type != LEX_END_OF_FILE) { return(Get()); } else { return(lex); } } static void GetWS() { lexicon lex; lex = Get(); while ((lex.type == LEX_CHAR) && (isspace(lex.value) || (lex.value == '#'))) { if (lex.value == '#') { lex = EatToNL(); } else { lex = Get(); } } UnGet(lex); } static void FreeState(pState) state *pState; { extern int free(); free((char *)pState); } static state * GetState() { state *pState; extern char *malloc(); pState = (state *) malloc(sizeof (state)); pState->result = STATE_NULL; pState->next = 0; return(pState); } static state * FindMatchAtThisLevel(pState, character) state *pState; int character; { while (pState) { if (pState->match == character) { return(pState); } pState = pState->next; } return(0); } static state * PasteEntry(head, string, count, identifier) state *head; /* points to who should point here... */ char *string; /* which characters to paste */ int count; /* number of character to do */ char *identifier; /* for error messages */ { state *pState, *other; if (!doPaste) { /* flag to not have any side effects */ return((state *)1); } if (!count) { return(head); /* return pointer to the parent */ } if ((head->result != STATE_NULL) && (head->result != STATE_GOTO)) { /* this means that a previously defined sequence is an initial * part of this one. */ fprintf(stderr, "Conflicting entries found when scanning %s\n", identifier); return(0); } # ifdef DEBUG if (debug) { fprintf(stderr, "%s", uncontrol(*string)); } # endif /* DEBUG */ pState = GetState(); pState->match = *string; if (head->result == STATE_NULL) { head->result = STATE_GOTO; head->address = pState; other = pState; } else { /* search for same character */ if ((other = FindMatchAtThisLevel(head->address, *string)) != 0) { FreeState(pState); } else { pState->next = head->address; head->address = pState; other = pState; } } return(PasteEntry(other, string+1, count-1, identifier)); } static GetInput(tc, identifier) int tc; char *identifier; /* entry being parsed (for error messages) */ { stringWithLength *outputString; state *head; state fakeQueue; if (doPaste) { head = headOfQueue; /* always points to level above this one */ } else { head = &fakeQueue; /* don't have any side effects... */ } if ((outputString = GetQuotedString()) == 0) { return(0); } else if (IsPrint(outputString->array[0])) { fprintf(stderr, "first character of sequence for %s is not a control type character\n", identifier); return(0); } else { if ((head = PasteEntry(head, outputString->array, outputString->length, identifier)) == 0) { return(0); } GetWS(); while ((outputString = GetQuotedString()) != 0) { if ((head = PasteEntry(head, outputString->array, outputString->length, identifier)) == 0) { return(0); } GetWS(); } } if (!doPaste) { return(1); } if ((head->result != STATE_NULL) && (head->result != tc)) { /* this means that this sequence is an initial part * of a previously defined one. */ fprintf(stderr, "Conflicting entries found when scanning %s\n", identifier); return(0); } else { head->result = tc; return(1); /* done */ } } static GetDefinition() { stringWithLength *string; int Tc; GetWS(); if ((string = GetAlphaMericString()) == 0) { return(0); } string->array[string->length] = 0; if (doPaste) { if ((Tc = (*GetTc)(string->array)) == -1) { if (picky) { fprintf(stderr, "%s: unknown 3270 key identifier\n", string->array); } Tc = STATE_NULL; } } else { Tc = STATE_NULL; /* XXX ? */ } GetWS(); if (!GetCharacter('=')) { fprintf(stderr, "Required equal sign after 3270 key identifier %s missing\n", string->array); return(0); } GetWS(); if (!GetInput(Tc, string->array)) { fprintf(stderr, "Missing definition part for 3270 key %s\n", string->array); return(0); } else { GetWS(); while (GetCharacter('|')) { # ifdef DEBUG if (debug) { fprintf(stderr, " or "); } # endif /* DEBUG */ GetWS(); if (!GetInput(Tc, string->array)) { fprintf(stderr, "Missing definition part for 3270 key %s\n", string->array); return(0); } GetWS(); } } GetWS(); if (!GetCharacter(';')) { fprintf(stderr, "Missing semi-colon for 3270 key %s\n", string->array); return(0); } # ifdef DEBUG if (debug) { fprintf(stderr, ";\n"); } # endif /* DEBUG */ return(1); } static GetDefinitions() { if (!GetDefinition()) { return(0); } else { while (GetDefinition()) { ; } } return(1); } static GetBegin() { GetWS(); if (!GetCharacter('{')) { return(0); } return(1); } static GetEnd() { GetWS(); if (!GetCharacter('}')) { return(0); } return(1); } static GetName() { if (!GetAlphaMericString()) { return(0); } GetWS(); while (GetAlphaMericString()) { GetWS(); } return(1); } static GetNames() { GetWS(); if (!GetName()) { return(0); } else { GetWS(); while (GetCharacter('|')) { GetWS(); if (!GetName()) { return(0); } } } return(1); } static GetEntry0() { if (!GetBegin()) { fprintf(stderr, "no '{'\n"); return(0); } else if (!GetDefinitions()) { fprintf(stderr, "unable to parse the definitions\n"); return(0); } else if (!GetEnd()) { fprintf(stderr, "No '}' or scanning stopped early due to error.\n"); return(0); } else { /* done */ return(1); } } static GetEntry() { if (!GetNames()) { fprintf(stderr, "Invalid name field in entry.\n"); return(0); } else { return(GetEntry0()); } } /* position ourselves within a given filename to the entry for the current * KEYBD (or TERM) variable */ Position(filename, keybdPointer) char *filename; char *keybdPointer; { lexicon lex; stringWithLength *name = 0; stringWithLength *oldName; # define Return(x) {doPaste = 1; return(x);} doPaste = 0; if ((ourFile = fopen(filename, "r")) == NULL) { # if !defined(MSDOS) fprintf(stderr, "Unable to open file %s\n", filename); # endif /* !defined(MSDOS) */ Return(0); } lex = Get(); while (lex.type != LEX_END_OF_FILE) { UnGet(lex); /* now, find an entry that is our type. */ GetWS(); oldName = name; if ((name = GetAlphaMericString()) != 0) { if (!ustrcmp(name->array, keybdPointer)) { /* need to make sure there is a name here... */ lex.type = LEX_CHAR; lex.value = 'a'; UnGet(lex); Return(1); } } else if (GetCharacter('|')) { ; /* more names coming */ } else { lex = Get(); UnGet(lex); if (lex.type != LEX_END_OF_FILE) { if (!GetEntry0()) { /* start of an entry */ fprintf(stderr, "error was in entry for %s in file %s\n", (oldName)? oldName->array:"(unknown)", filename); Return(0); } } } lex = Get(); } #if !defined(MSDOS) fprintf(stderr, "Unable to find entry for %s in file %s\n", keybdPointer, filename); #endif /* !defined(MSDOS) */ Return(0); } char * strsave(string) char *string; { char *p; extern char *malloc(); p = malloc((unsigned int)strlen(string)+1); if (p != 0) { strcpy(p, string); } return(p); } /* * InitControl - our interface to the outside. What we should * do is figure out keyboard (or terminal) type, set up file pointer * (or string pointer), etc. */ state * InitControl(keybdPointer, pickyarg, translator) char *keybdPointer; int pickyarg; /* Should we be picky? */ int (*translator)(); /* Translates ascii string to integer */ { extern char *getenv(); int GotIt; picky = pickyarg; GetTc = translator; if (keybdPointer == 0) { keybdPointer = getenv("KEYBD"); } if (keybdPointer == 0) { keybdPointer = getenv("TERM"); } /* * Some environments have getenv() return * out of a static area. So, save the keyboard name. */ if (keybdPointer) { keybdPointer = strsave(keybdPointer); } environPointer = getenv("MAP3270"); if (environPointer && (environPointer[0] != '/') #if defined(MSDOS) && (environPointer[0] != '\\') #endif /* defined(MSDOS) */ && (strncmp(keybdPointer, environPointer, strlen(keybdPointer) != 0) || (environPointer[strlen(keybdPointer)] != '{'))) /* } */ { environPointer = 0; } if ((!environPointer) #if defined(MSDOS) || (*environPointer == '\\') #endif /* defined(MSDOS) */ || (*environPointer == '/')) { usePointer = 0; GotIt = 0; if (!keybdPointer) { #if !defined(MSDOS) fprintf(stderr, "%s%s%s%s", "Neither the KEYBD environment variable nor the TERM ", "environment variable\n(one of which is needed to determine ", "the type of keyboard you are using)\n", "is set. To set it, say 'setenv KEYBD '\n"); #endif /* !defined(MSDOS) */ } else { if (environPointer) { GotIt = Position(environPointer, keybdPointer); } if (!GotIt) { GotIt = Position("/usr/share/misc/map3270", keybdPointer); } } if (!GotIt) { if (environPointer) { GotIt = Position(environPointer, "unknown"); } if (!GotIt) { GotIt = Position("/usr/share/misc/map3270", keybdPointer); } } if (!GotIt) { #if !defined(MSDOS) fprintf(stderr, "Using default key mappings.\n"); #endif /* !defined(MSDOS) */ usePointer = 1; /* flag use of non-file */ whichkey = keysgeneric; environPointer = *whichkey; /* use default table */ } } else { usePointer = 1; } (void) GetEntry(); return(firstentry.address); }