/* $OpenBSD: inbound.c,v 1.2 1996/06/26 05:41:19 deraadt 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: @(#)inbound.c 4.3 (Berkeley) 4/26/91";*/ static char rcsid[] = "$OpenBSD: inbound.c,v 1.2 1996/06/26 05:41:19 deraadt Exp $"; #endif /* not lint */ #include #include "../general/general.h" #include "function.h" #include "hostctlr.h" #include "oia.h" #include "scrnctlr.h" #include "screen.h" #include "options.h" #include "../api/dctype.h" #include "../api/ebc_disp.h" #include "../general/globals.h" #include "externs.h" #include "declare.h" #define EmptyChar() (ourPTail == ourPHead) #define FullChar() (ourPHead == ourBuffer+sizeof ourBuffer) /* * We define something to allow us to to IsProtected() quickly * on unformatted screens (with the current algorithm for fields, * unprotected takes exponential time...). * * The idea is to call SetXIsProtected() BEFORE the * loop, then use XIsProtected(). */ #define SetXIsProtected() (XWasSF = 1) #define XIsProtected(p) (IsStartField(p)? \ XWasSF = 1 : \ (XWasSF? \ (XWasSF = 0, XProtected = IsProtected(p)) : \ XProtected)) static char ourBuffer[400]; static char *ourPHead = ourBuffer, *ourPTail = ourBuffer; static int HadAid; /* Had an AID haven't sent */ static int InsertMode; /* is the terminal in insert mode? */ static unsigned int rememberedshiftstate; /* Shift (alt) state of terminal */ # define HITNUM(s) ((((s)&(SHIFT_CAPS|SHIFT_UPSHIFT))? 1:0) \ + ((((s)&SHIFT_ALT)? 1:0)<<1)) static int XWasSF, XProtected; /* For optimizations */ #if !defined(PURE3274) extern int TransparentClock, OutputClock; #endif /* !defined(PURE3274) */ #include "kbd.out" /* Get keyboard mapping function */ /* the following are global variables */ extern int UnLocked; /* keyboard is UnLocked? */ /* * init_inbound : * * Reset variables to initial state. */ void init_inbound() { ourPHead = ourPTail = ourBuffer; HadAid = 0; rememberedshiftstate = 0; InsertMode = 0; } /* Tab() - sets cursor to the start of the next unprotected field */ static void Tab() { register int i, j; i = CursorAddress; j = WhereAttrByte(CursorAddress); do { if (IsStartField(i) && IsUnProtected(ScreenInc(i))) { break; } i = FieldInc(i); } while (i != j); if (IsStartField(i) && IsUnProtected(ScreenInc(i))) { CursorAddress = ScreenInc(i); } else { CursorAddress = SetBufferAddress(0,0); } } /* BackTab() - sets cursor to the start of the most recent field */ static void BackTab() { register int i; i = ScreenDec(CursorAddress); for (;;) { if (IsStartField(ScreenDec(i)) && IsUnProtected(i)) { CursorAddress = i; break; } if (i == CursorAddress) { CursorAddress = SetBufferAddress(0,0); break; } i = ScreenDec(i); } } /* * ModifyMdt() - Turn a modified data tag bit on or off (watch * out for unformatted screens). */ ModifyMdt(x,on) int x; int on; { int i = x; if (IsStartField(i)) { /* If we are at a start field position... */ if (on) { ModifyHost(i, |= ATTR_MDT); /* Turn it on */ } else { ModifyHost(i, &= ~ATTR_MDT); /* Turn it off */ } } else { i = WhereAttrByte(i); /* Find beginning of field */ if (IsStartField(i)) { /* Is there one? */ if (on) { ModifyHost(i, |= ATTR_MDT); /* Turn it on */ } else { ModifyHost(i, &= ~ATTR_MDT); /* Turn it off */ } } /* else, don't modify - this is an unformatted screen */ } } /* EraseEndOfField - erase all characters to the end of a field */ static void EraseEndOfField() { register int i; if (IsProtected(CursorAddress)) { RingBell("Protected Field"); } else { TurnOnMdt(CursorAddress); if (FormattedScreen()) { i = CursorAddress; do { AddHost(i, 0); i = ScreenInc(i); } while ((i != CursorAddress) && !IsStartField(i)); } else { /* Screen is Unformatted */ i = CursorAddress; do { AddHost(i, 0); i = ScreenInc(i); } while (i != HighestScreen()); } } } /* Delete() - deletes a character from the screen * * What we want to do is delete the section * [where, from-1] from the screen, * filling in with what comes at from. * * The deleting continues to the end of the field (or * until the cursor wraps). * * From can be a start of a field. We * check for that. However, there can't be any * fields that start between where and from. * We don't check for that. * * Also, we assume that the protection status of * everything has been checked by the caller. * */ static void Delete(where, from) register int where, /* Where to start deleting from */ from; /* Where to pull back from */ { register int i; TurnOnMdt(where); /* Only do this once in this field */ i = where; do { if (IsStartField(from)) { AddHost(i, 0); /* Stick the edge at the start field */ } else { AddHost(i, (char)GetHost(from)); from = ScreenInc(from); /* Move the edge */ } i = ScreenInc(i); } while ((!IsStartField(i)) && (i != where)); } static void ColBak() { register int i; i = ScreenLineOffset(CursorAddress); for (i = i-1; i >= 0; i--) { if (OptColTabs[i]) { break; } } if (i < 0) { i = 0; } CursorAddress = SetBufferAddress(ScreenLine(CursorAddress), i); } static void ColTab() { register int i; i = ScreenLineOffset(CursorAddress); for (i = i+1; i < NumberColumns; i++) { if (OptColTabs[i]) { break; } } if (i >= NumberColumns) { i = NumberColumns-1; } CursorAddress = SetBufferAddress(ScreenLine(CursorAddress), i); } static void Home() { register int i; register int j; i = SetBufferAddress(OptHome, 0); j = WhereLowByte(i); /* * If the initial value of i points to the field attribute of * an unprotected field, we need to return the address of the * first data byte in the field (assuming there are any!). */ if (IsStartField(i) && IsUnProtected(j)) { CursorAddress = j; return; } do { if (IsUnProtected(i)) { CursorAddress = i; return; } /* the following could be a problem if we got here with an * unformatted screen. However, this is "impossible", since * with an unformatted screen, the IsUnProtected(i) above * should be true. */ i = ScreenInc(FieldInc(i)); } while (i != j); CursorAddress = LowestScreen(); } static LastOfField(i) register int i; /* position to start from */ { register int j; register int k; k = j = i; SetXIsProtected(); while (XIsProtected(i) || Disspace(GetHost(i))) { i = ScreenInc(i); if (i == j) { break; } } /* We are now IN a word IN an unprotected field (or wrapped) */ while (!XIsProtected(i)) { if (!Disspace(GetHost(i))) { k = i; } i = ScreenInc(i); if (i == j) { break; } } return(k); } static void FlushChar() { ourPTail = ourPHead = ourBuffer; } /* * Add one EBCDIC (NOT display code) character to the buffer. */ static void AddChar(character) char character; { if (FullChar()) { ourPTail += DataToNetwork(ourPTail, ourPHead-ourPTail, 0); if (EmptyChar()) { FlushChar(); } else { char buffer[100]; sprintf(buffer, "File %s, line %d: No room in network buffer!\n", __FILE__, __LINE__); ExitString(buffer, 1); /*NOTREACHED*/ } } *ourPHead++ = character; } static void SendUnformatted() { register int i, j; register int Nulls; register int c; /* look for start of field */ Nulls = 0; i = j = LowestScreen(); do { c = GetHost(i); if (c == 0) { Nulls++; } else { while (Nulls) { Nulls--; AddChar(EBCDIC_BLANK); /* put in blanks */ } AddChar((char)disp_ebc[c]); } i = ScreenInc(i); } while (i != j); } static SendField(i, cmd) register int i; /* where we saw MDT bit */ int cmd; /* The command code (type of read) */ { register int j; register int k; register int Nulls; register int c; /* look for start of field */ i = j = WhereLowByte(i); /* On a test_request_read, don't send sba and address */ if ((AidByte != AID_TREQ) || (cmd == CMD_SNA_READ_MODIFIED_ALL)) { AddChar(ORDER_SBA); /* set start field */ AddChar(BufferTo3270_0(j)); /* set address of this field */ AddChar(BufferTo3270_1(j)); } /* * Only on read_modified_all do we return the contents * of the field when the attention was caused by a * selector pen. */ if ((AidByte != AID_SELPEN) || (cmd == CMD_SNA_READ_MODIFIED_ALL)) { if (!IsStartField(j)) { Nulls = 0; k = ScreenInc(WhereHighByte(j)); do { c = GetHost(j); if (c == 0) { Nulls++; } else { while (Nulls) { Nulls--; AddChar(EBCDIC_BLANK); /* put in blanks */ } AddChar((char)disp_ebc[c]); } j = ScreenInc(j); } while ((j != k) && (j != i)); } } else { j = FieldInc(j); } return(j); } /* Various types of reads... */ void DoReadModified(cmd) int cmd; /* The command sent */ { register int i, j; if (AidByte) { if (AidByte != AID_TREQ) { AddChar(AidByte); } else { /* Test Request Read header */ AddChar(EBCDIC_SOH); AddChar(EBCDIC_PERCENT); AddChar(EBCDIC_SLASH); AddChar(EBCDIC_STX); } } else { AddChar(AID_NONE); } if (((AidByte != AID_PA1) && (AidByte != AID_PA2) && (AidByte != AID_PA3) && (AidByte != AID_CLEAR)) || (cmd == CMD_SNA_READ_MODIFIED_ALL)) { if ((AidByte != AID_TREQ) || (cmd == CMD_SNA_READ_MODIFIED_ALL)) { /* Test request read_modified doesn't give cursor address */ AddChar(BufferTo3270_0(CursorAddress)); AddChar(BufferTo3270_1(CursorAddress)); } i = j = WhereAttrByte(LowestScreen()); /* Is this an unformatted screen? */ if (!IsStartField(i)) { /* yes, handle separate */ SendUnformatted(); } else { do { if (HasMdt(i)) { i = SendField(i, cmd); } else { i = FieldInc(i); } } while (i != j); } } ourPTail += DataToNetwork(ourPTail, ourPHead-ourPTail, 1); if (EmptyChar()) { FlushChar(); HadAid = 0; /* killed that buffer */ } } /* A read buffer operation... */ void DoReadBuffer() { register int i, j; if (AidByte) { AddChar(AidByte); } else { AddChar(AID_NONE); } AddChar(BufferTo3270_0(CursorAddress)); AddChar(BufferTo3270_1(CursorAddress)); i = j = LowestScreen(); do { if (IsStartField(i)) { AddChar(ORDER_SF); AddChar(BufferTo3270_1(FieldAttributes(i))); } else { AddChar((char)disp_ebc[GetHost(i)]); } i = ScreenInc(i); } while (i != j); ourPTail += DataToNetwork(ourPTail, ourPHead-ourPTail, 1); if (EmptyChar()) { FlushChar(); HadAid = 0; /* killed that buffer */ } } /* Send some transparent data to the host */ void SendTransparent(buffer, count) char *buffer; int count; { char stuff[3]; stuff[0] = AID_NONE_PRINTER; stuff[1] = BufferTo3270_0(count); stuff[2] = BufferTo3270_1(count); DataToNetwork(stuff, sizeof stuff, 0); DataToNetwork(buffer, count, 1); } /* Try to send some data to host */ void SendToIBM() { #if !defined(PURE3274) if (TransparentClock >= OutputClock) { if (HadAid) { AddChar(AidByte); HadAid = 0; } else { AddChar(AID_NONE_PRINTER); } do { ourPTail += DataToNetwork(ourPTail, ourPHead-ourPTail, 1); } while (!EmptyChar()); FlushChar(); } else if (HadAid) { DoReadModified(CMD_READ_MODIFIED); } #else /* !defined(PURE3274) */ if (HadAid) { DoReadModified(CMD_READ_MODIFIED); } #endif /* !defined(PURE3274) */ } /* This takes in one character from the keyboard and places it on the * screen. */ static void OneCharacter(c, insert) int c; /* character (Ebcdic) to be shoved in */ int insert; /* are we in insert mode? */ { register int i, j; if (IsProtected(CursorAddress)) { RingBell("Protected Field"); return; } if (insert) { /* is the last character in the field a blank or null? */ i = ScreenDec(FieldInc(CursorAddress)); j = GetHost(i); if (!Disspace(j)) { RingBell("No more room for insert"); return; } else { for (j = ScreenDec(i); i != CursorAddress; j = ScreenDec(j), i = ScreenDec(i)) { AddHost(i, (char)GetHost(j)); } } } AddHost(CursorAddress, c); TurnOnMdt(CursorAddress); CursorAddress = ScreenInc(CursorAddress); if (IsStartField(CursorAddress) && ((FieldAttributes(CursorAddress)&ATTR_AUTO_SKIP_MASK) == ATTR_AUTO_SKIP_VALUE)) { Tab(); } } /* * AcceptKeystroke() * * Processes one keystroke. * * Returns: * * 0 if this keystroke was NOT processed. * 1 if everything went OK. */ int AcceptKeystroke(scancode, shiftstate) unsigned int scancode, /* 3270 scancode */ shiftstate; /* The shift state */ { register int c; register int i; register int j; enum ctlrfcn ctlrfcn; if (scancode >= numberof(hits)) { ExitString( "Unknown scancode encountered in AcceptKeystroke.\n", 1); /*NOTREACHED*/ } ctlrfcn = hits[scancode].hit[HITNUM(shiftstate)].ctlrfcn; c = hits[scancode].hit[HITNUM(shiftstate)].code; if (!UnLocked || HadAid) { if (HadAid) { SendToIBM(); if (!EmptyChar()) { return 0; /* nothing to do */ } } #if !defined(PURE3274) if (!HadAid && EmptyChar()) { if ((ctlrfcn == FCN_RESET) || (ctlrfcn == FCN_MASTER_RESET)) { UnLocked = 1; } } #endif /* !defined(PURE3274) */ if (!UnLocked) { return 0; } } /* now, either empty, or haven't seen aid yet */ #if !defined(PURE3274) /* * If we are in transparent (output) mode, do something special * with keystrokes. */ if (TransparentClock == OutputClock) { if (ctlrfcn == FCN_AID) { UnLocked = 0; InsertMode = 0; AidByte = (c); HadAid = 1; } else { switch (ctlrfcn) { case FCN_ESCAPE: StopScreen(1); command(0, NULL, 0); if (shell_active == 0) { ConnectScreen(); } break; case FCN_RESET: case FCN_MASTER_RESET: UnLocked = 1; break; default: return 0; } } } #endif /* !defined(PURE3274) */ if (ctlrfcn == FCN_CHARACTER) { /* Add the character to the buffer */ OneCharacter(c, InsertMode); } else if (ctlrfcn == FCN_AID) { /* got Aid */ if (c == AID_CLEAR) { LocalClearScreen(); /* Side effect is to clear 3270 */ } ResetOiaOnlineA(&OperatorInformationArea); SetOiaTWait(&OperatorInformationArea); ResetOiaInsert(&OperatorInformationArea); InsertMode = 0; /* just like a 3278 */ SetOiaSystemLocked(&OperatorInformationArea); SetOiaModified(); UnLocked = 0; AidByte = c; HadAid = 1; SendToIBM(); } else { switch (ctlrfcn) { case FCN_CURSEL: c = FieldAttributes(CursorAddress)&ATTR_DSPD_MASK; if (!FormattedScreen() || ((c != ATTR_DSPD_DSPD) && (c != ATTR_DSPD_HIGH))) { RingBell("Cursor not in selectable field"); } else { i = ScreenInc(WhereAttrByte(CursorAddress)); c = GetHost(i); if (c == DISP_QUESTION) { AddHost(i, DISP_GREATER_THAN); TurnOnMdt(i); } else if (c == DISP_GREATER_THAN) { AddHost(i, DISP_QUESTION); TurnOffMdt(i); } else if (c == DISP_BLANK || c == DISP_NULL || c == DISP_AMPERSAND) { UnLocked = 0; InsertMode = 0; ResetOiaOnlineA(&OperatorInformationArea); SetOiaTWait(&OperatorInformationArea); SetOiaSystemLocked(&OperatorInformationArea); ResetOiaInsert(&OperatorInformationArea); SetOiaModified(); if (c == DISP_AMPERSAND) { TurnOnMdt(i); /* Only for & type */ AidByte = AID_ENTER; } else { AidByte = AID_SELPEN; } HadAid = 1; SendToIBM(); } else { RingBell( "Cursor not in a selectable field (designator)"); } } break; #if !defined(PURE3274) case FCN_ERASE: if (IsProtected(ScreenDec(CursorAddress))) { RingBell("Protected Field"); } else { CursorAddress = ScreenDec(CursorAddress); Delete(CursorAddress, ScreenInc(CursorAddress)); } break; case FCN_WERASE: j = CursorAddress; i = ScreenDec(j); if (IsProtected(i)) { RingBell("Protected Field"); } else { SetXIsProtected(); while ((!XIsProtected(i) && Disspace(GetHost(i))) && (i != j)) { i = ScreenDec(i); } /* we are pointing at a character in a word, or * at a protected position */ while ((!XIsProtected(i) && !Disspace(GetHost(i))) && (i != j)) { i = ScreenDec(i); } /* we are pointing at a space, or at a protected * position */ CursorAddress = ScreenInc(i); Delete(CursorAddress, j); } break; case FCN_FERASE: if (IsProtected(CursorAddress)) { RingBell("Protected Field"); } else { CursorAddress = ScreenInc(CursorAddress); /* for btab */ BackTab(); EraseEndOfField(); } break; case FCN_RESET: if (InsertMode) { InsertMode = 0; ResetOiaInsert(&OperatorInformationArea); SetOiaModified(); } break; case FCN_MASTER_RESET: if (InsertMode) { InsertMode = 0; ResetOiaInsert(&OperatorInformationArea); SetOiaModified(); } RefreshScreen(); break; #endif /* !defined(PURE3274) */ case FCN_UP: CursorAddress = ScreenUp(CursorAddress); break; case FCN_LEFT: CursorAddress = ScreenDec(CursorAddress); break; case FCN_RIGHT: CursorAddress = ScreenInc(CursorAddress); break; case FCN_DOWN: CursorAddress = ScreenDown(CursorAddress); break; case FCN_DELETE: if (IsProtected(CursorAddress)) { RingBell("Protected Field"); } else { Delete(CursorAddress, ScreenInc(CursorAddress)); } break; case FCN_INSRT: InsertMode = !InsertMode; if (InsertMode) { SetOiaInsert(&OperatorInformationArea); } else { ResetOiaInsert(&OperatorInformationArea); } SetOiaModified(); break; case FCN_HOME: Home(); break; case FCN_NL: /* The algorithm is to look for the first unprotected * column after column 0 of the following line. Having * found that unprotected column, we check whether the * cursor-address-at-entry is at or to the right of the * LeftMargin AND the LeftMargin column of the found line * is unprotected. If this conjunction is true, then * we set the found pointer to the address of the LeftMargin * column in the found line. * Then, we set the cursor address to the found address. */ i = SetBufferAddress(ScreenLine(ScreenDown(CursorAddress)), 0); j = ScreenInc(WhereAttrByte(CursorAddress)); do { if (IsUnProtected(i)) { break; } /* Again (see comment in Home()), this COULD be a problem * with an unformatted screen. */ /* If there was a field with only an attribute byte, * we may be pointing to the attribute byte of the NEXT * field, so just look at the next byte. */ if (IsStartField(i)) { i = ScreenInc(i); } else { i = ScreenInc(FieldInc(i)); } } while (i != j); if (!IsUnProtected(i)) { /* couldn't find unprotected */ i = SetBufferAddress(0,0); } if (OptLeftMargin <= ScreenLineOffset(CursorAddress)) { if (IsUnProtected(SetBufferAddress(ScreenLine(i), OptLeftMargin))) { i = SetBufferAddress(ScreenLine(i), OptLeftMargin); } } CursorAddress = i; break; case FCN_EINP: if (!FormattedScreen()) { i = CursorAddress; TurnOffMdt(i); do { AddHost(i, 0); i = ScreenInc(i); } while (i != CursorAddress); } else { /* * The algorithm is: go through each unprotected * field on the screen, clearing it out. When * we are at the start of a field, skip that field * if its contents are protected. */ i = j = FieldInc(CursorAddress); do { if (IsUnProtected(ScreenInc(i))) { i = ScreenInc(i); TurnOffMdt(i); do { AddHost(i, 0); i = ScreenInc(i); } while (!IsStartField(i)); } else { i = FieldInc(i); } } while (i != j); } Home(); break; case FCN_EEOF: EraseEndOfField(); break; case FCN_SPACE: OneCharacter(DISP_BLANK, InsertMode); /* Add cent */ break; case FCN_CENTSIGN: OneCharacter(DISP_CENTSIGN, InsertMode); /* Add cent */ break; case FCN_FM: OneCharacter(DISP_FM, InsertMode); /* Add field mark */ break; case FCN_DP: if (IsProtected(CursorAddress)) { RingBell("Protected Field"); } else { OneCharacter(DISP_DUP, InsertMode);/* Add dup character */ Tab(); } break; case FCN_TAB: Tab(); break; case FCN_BTAB: BackTab(); break; #ifdef NOTUSED /* Actually, this is superseded by unix flow * control. */ case FCN_XOFF: Flow = 0; /* stop output */ break; case FCN_XON: if (!Flow) { Flow = 1; /* turn it back on */ DoTerminalOutput(); } break; #endif /* NOTUSED */ #if !defined(PURE3274) case FCN_ESCAPE: /* FlushChar(); do we want to flush characters from before? */ StopScreen(1); command(0, NULL, 0); if (shell_active == 0) { ConnectScreen(); } break; case FCN_DISC: StopScreen(1); suspend(); setconnmode(); ConnectScreen(); break; case FCN_RESHOW: RefreshScreen(); break; case FCN_SETTAB: OptColTabs[ScreenLineOffset(CursorAddress)] = 1; break; case FCN_DELTAB: OptColTabs[ScreenLineOffset(CursorAddress)] = 0; break; /* * Clear all tabs, home line, and left margin. */ case FCN_CLRTAB: for (i = 0; i < sizeof OptColTabs; i++) { OptColTabs[i] = 0; } OptHome = 0; OptLeftMargin = 0; break; case FCN_COLTAB: ColTab(); break; case FCN_COLBAK: ColBak(); break; case FCN_INDENT: ColTab(); OptLeftMargin = ScreenLineOffset(CursorAddress); break; case FCN_UNDENT: ColBak(); OptLeftMargin = ScreenLineOffset(CursorAddress); break; case FCN_SETMRG: OptLeftMargin = ScreenLineOffset(CursorAddress); break; case FCN_SETHOM: OptHome = ScreenLine(CursorAddress); break; /* * Point to first character of next unprotected word on * screen. */ case FCN_WORDTAB: i = CursorAddress; SetXIsProtected(); while (!XIsProtected(i) && !Disspace(GetHost(i))) { i = ScreenInc(i); if (i == CursorAddress) { break; } } /* i is either protected, a space (blank or null), * or wrapped */ while (XIsProtected(i) || Disspace(GetHost(i))) { i = ScreenInc(i); if (i == CursorAddress) { break; } } CursorAddress = i; break; case FCN_WORDBACKTAB: i = ScreenDec(CursorAddress); SetXIsProtected(); while (XIsProtected(i) || Disspace(GetHost(i))) { i = ScreenDec(i); if (i == CursorAddress) { break; } } /* i is pointing to a character IN an unprotected word * (or i wrapped) */ while (!Disspace(GetHost(i))) { i = ScreenDec(i); if (i == CursorAddress) { break; } } CursorAddress = ScreenInc(i); break; /* Point to last non-blank character of this/next * unprotected word. */ case FCN_WORDEND: i = ScreenInc(CursorAddress); SetXIsProtected(); while (XIsProtected(i) || Disspace(GetHost(i))) { i = ScreenInc(i); if (i == CursorAddress) { break; } } /* we are pointing at a character IN an * unprotected word (or we wrapped) */ while (!Disspace(GetHost(i))) { i = ScreenInc(i); if (i == CursorAddress) { break; } } CursorAddress = ScreenDec(i); break; /* Get to last non-blank of this/next unprotected * field. */ case FCN_FIELDEND: i = LastOfField(CursorAddress); if (i != CursorAddress) { CursorAddress = i; /* We moved; take this */ } else { j = FieldInc(CursorAddress); /* Move to next field */ i = LastOfField(j); if (i != j) { CursorAddress = i; /* We moved; take this */ } /* else - nowhere else on screen to be; stay here */ } break; #endif /* !defined(PURE3274) */ default: /* We don't handle this yet */ RingBell("Function not implemented"); } } return 1; /* We did something! */ } /* * We get data from the terminal. We keep track of the shift state * (including ALT, CONTROL), and then call AcceptKeystroke to actually * process any non-shift keys. */ int DataFrom3270(buffer, count) unsigned char *buffer; /* where the data is */ int count; /* how much data there is */ { int origCount; origCount = count; while (count) { if (*buffer >= numberof(hits)) { ExitString("Unknown scancode encountered in DataFrom3270.\n", 1); /*NOTREACHED*/ } switch (hits[*buffer].hit[HITNUM(rememberedshiftstate)].ctlrfcn) { case FCN_MAKE_SHIFT: rememberedshiftstate |= (SHIFT_RIGHT|SHIFT_UPSHIFT); break; case FCN_BREAK_SHIFT: rememberedshiftstate &= ~(SHIFT_RIGHT|SHIFT_UPSHIFT); break; case FCN_MAKE_ALT: rememberedshiftstate |= SHIFT_ALT; break; case FCN_BREAK_ALT: rememberedshiftstate &= ~SHIFT_ALT; break; default: if (AcceptKeystroke(*buffer, rememberedshiftstate) == 0) { return(origCount-count); } break; } buffer++; count--; } return(origCount-count); }