# /* */ /* * general TTY subroutines */ #include "param.h" #include "systm.h" #include "user.h" #include "tty.h" #include "proc.h" #include "inode.h" #include "file.h" #include "reg.h" #include "conf.h" /* * Input mapping table-- if an entry is non-zero, when the * corresponding character is typed preceded by "\" the escape * sequence is replaced by the table value. Mostly used for * upper-case only terminals. */ char maptab[] { 000,000,000,000,004,000,000,000, 000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000, 000,'|',000,'#',000,000,000,'`', '{','}',000,000,000,000,000,000, 000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000, '@',000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000, 000,000,000,000,000,000,'~',000, 000,'A','B','C','D','E','F','G', 'H','I','J','K','L','M','N','O', 'P','Q','R','S','T','U','V','W', 'X','Y','Z',000,000,000,000,000, }; /* * The actual structure of a clist block manipulated by * getc and putc (mch.s) */ struct cblock { struct cblock *c_next; char info[6]; }; /* The character lists-- space for 6*NCLIST characters */ struct cblock cfree[NCLIST]; /* List head for unused character blocks. */ struct cblock *cfreelist; /* * structure of device registers for KL, DL, and DC * interfaces-- more particularly, those for which the * SSTART bit is off and can be treated by general routines * (that is, not DH). */ struct { int ttrcsr; int ttrbuf; int tttcsr; int tttbuf; }; /* * routine called on first teletype open. * establishes a process group for distribution * of quits and interrupts from the tty. */ ttyopen(dev, atp) struct tty *atp; { register struct proc *pp; register struct tty *tp; pp = u.u_procp; tp = atp; if(pp->p_pgrp == 0) { pp->p_pgrp = pp->p_pid; u.u_ttyp = tp; u.u_ttyd = dev; tp->t_pgrp = pp->p_pid; } tp->t_state =& ~WOPEN; tp->t_state =| ISOPEN; } /* * The routine implementing the gtty system call. * Just call lower level routine and pass back values. */ gtty() { int v[3]; register *up, *vp; vp = v; sgtty(vp); if (u.u_error) return; up = u.u_arg[0]; suword(up, *vp++); suword(++up, *vp++); suword(++up, *vp++); } /* * The routine implementing the stty system call. * Read in values and call lower level. */ stty() { register int *up; up = u.u_arg[0]; u.u_arg[0] = fuword(up); u.u_arg[1] = fuword(++up); u.u_arg[2] = fuword(++up); sgtty(0); } /* * Stuff common to stty and gtty. * Check legality and switch out to individual * device routine. * v is 0 for stty; the parameters are taken from u.u_arg[]. * c is non-zero for gtty and is the place in which the device * routines place their information. */ sgtty(v) int *v; { register struct file *fp; register struct inode *ip; if ((fp = getf(u.u_ar0[R0])) == NULL) return; ip = fp->f_inode; if ((ip->i_mode&IFMT) != IFCHR) { u.u_error = ENOTTY; return; } (*cdevsw[ip->i_addr[0].d_major].d_sgtty)(ip->i_addr[0], v); } /* * Wait for output to drain, then flush input waiting. */ wflushtty(atp) struct tty *atp; { register struct tty *tp; tp = atp; spl5(); while (tp->t_outq.c_cc) { tp->t_state =| ASLEEP; sleep(&tp->t_outq, TTOPRI); } flushtty(tp); spl0(); } /* * Initialize clist by freeing all character blocks, then count * number of character devices. (Once-only routine) */ cinit() { register int ccp; register struct cblock *cp; register struct cdevsw *cdp; ccp = cfree; for (cp=(ccp+07)&~07; cp <= &cfree[NCLIST-1]; cp++) { cp->c_next = cfreelist; cfreelist = cp; } ccp = 0; for(cdp = cdevsw; cdp->d_open; cdp++) ccp++; nchrdev = ccp; } /* * flush all TTY queues */ flushtty(atp) struct tty *atp; { register struct tty *tp; register int sps; tp = atp; while (getc(&tp->t_canq) >= 0); while (getc(&tp->t_outq) >= 0); wakeup(&tp->t_rawq); wakeup(&tp->t_outq); sps = getps(); spl5(); while (getc(&tp->t_rawq) >= 0); tp->t_delct = 0; putps(sps); } /* * transfer raw input list to canonical list, * doing erase-kill processing and handling escapes. * It waits until a full line has been typed in cooked mode, * or until any character has been typed in raw mode. */ canon(atp) struct tty *atp; { register char *bp; char *bp1; register struct tty *tp; register int c; tp = atp; spl5(); while (tp->t_delct==0) { if ((tp->t_state&CARR_ON)==0) return(0); sleep(&tp->t_rawq, TTIPRI); } spl0(); loop: bp = &canonb[2]; while ((c=getc(&tp->t_rawq)) >= 0) { if (c==0377) { tp->t_delct--; break; } if ((tp->t_flags&RAW)==0) { if (bp[-1]!='\\') { if (c==tp->t_erase) { if (bp > &canonb[2]) bp--; continue; } if (c==tp->t_kill) goto loop; if (c==CEOT) continue; } else if (maptab[c] && (maptab[c]==c || (tp->t_flags&LCASE))) { if (bp[-2] != '\\') c = maptab[c]; bp--; } } *bp++ = c; if (bp>=canonb+CANBSIZ) break; } bp1 = bp; bp = &canonb[2]; c = &tp->t_canq; while (bpt_flags; if ((c =& 0177) == '\r' && t_flags&CRMOD) c = '\n'; if ((t_flags&RAW)==0 && (c==CQUIT || c==CINTR)) { signal(tp->t_pgrp, c==CINTR? SIGINT:SIGQIT); flushtty(tp); return; } if (tp->t_rawq.c_cc>=TTYHOG) { flushtty(tp); return; } if (t_flags&LCASE && c>='A' && c<='Z') c =+ 'a'-'A'; putc(c, &tp->t_rawq); if (t_flags&RAW || c=='\n' || c==004) { wakeup(&tp->t_rawq); if (putc(0377, &tp->t_rawq)==0) tp->t_delct++; } if (t_flags&ECHO) { ttyoutput(c, tp); ttstart(tp); } } /* * put character on TTY output queue, adding delays, * expanding tabs, and handling the CR/NL bit. * It is called both from the top half for output, and from * interrupt level for echoing. * The arguments are the character and the tty structure. */ ttyoutput(ac, tp) struct tty *tp; { register int c; register struct tty *rtp; register char *colp; int ctype; rtp = tp; c = ac&0177; /* * Ignore EOT in normal mode to avoid hanging up * certain terminals. */ if (c==004 && (rtp->t_flags&RAW)==0) return; /* * Turn tabs to spaces as required */ if (c=='\t' && rtp->t_flags&XTABS) { do ttyoutput(' ', rtp); while (rtp->t_col&07); return; } /* * for upper-case-only terminals, * generate escapes. */ if (rtp->t_flags&LCASE) { colp = "({)}!|^~'`"; while(*colp++) if(c == *colp++) { ttyoutput('\\', rtp); c = colp[-2]; break; } if ('a'<=c && c<='z') c =+ 'A' - 'a'; } /* * turn to if desired. */ if (c=='\n' && rtp->t_flags&CRMOD) ttyoutput('\r', rtp); if (putc(c, &rtp->t_outq)) return; /* * Calculate delays. * The numbers here represent clock ticks * and are not necessarily optimal for all terminals. * The delays are indicated by characters above 0200, * thus (unfortunately) restricting the transmission * path to 7 bits. */ colp = &rtp->t_col; ctype = partab[c]; c = 0; switch (ctype&077) { /* ordinary */ case 0: (*colp)++; /* non-printing */ case 1: break; /* backspace */ case 2: if (*colp) (*colp)--; break; /* newline */ case 3: ctype = (rtp->t_flags >> 8) & 03; if(ctype == 1) { /* tty 37 */ if (*colp) c = max((*colp>>4) + 3, 6); } else if(ctype == 2) { /* vt05 */ c = 6; } *colp = 0; break; /* tab */ case 4: ctype = (rtp->t_flags >> 10) & 03; if(ctype == 1) { /* tty 37 */ c = 1 - (*colp | ~07); if(c < 5) c = 0; } *colp =| 07; (*colp)++; break; /* vertical motion */ case 5: if(rtp->t_flags & VTDELAY) /* tty 37 */ c = 0177; break; /* carriage return */ case 6: ctype = (rtp->t_flags >> 12) & 03; if(ctype == 1) { /* tn 300 */ c = 5; } else if(ctype == 2) { /* ti 700 */ c = 10; } *colp = 0; } if(c) putc(c|0200, &rtp->t_outq); } /* * Restart typewriter output following a delay * timeout. * The name of the routine is passed to the timeout * subroutine and it is called during a clock interrupt. */ ttrstrt(atp) { register struct tty *tp; tp = atp; tp->t_state =& ~TIMEOUT; ttstart(tp); } /* * Start output on the typewriter. It is used from the top half * after some characters have been put on the output queue, * from the interrupt routine to transmit the next * character, and after a timeout has finished. * If the SSTART bit is off for the tty the work is done here, * using the protocol of the single-line interfaces (KL, DL, DC); * otherwise the address word of the tty structure is * taken to be the name of the device-dependent startup routine. */ ttstart(atp) struct tty *atp; { register int *addr, c; register struct tty *tp; struct { int (*func)(); }; tp = atp; addr = tp->t_addr; if (tp->t_state&SSTART) { (*addr.func)(tp); return; } if ((addr->tttcsr&DONE)==0 || tp->t_state&TIMEOUT) return; if ((c=getc(&tp->t_outq)) >= 0) { if (c<=0177) addr->tttbuf = c | (partab[c]&0200); else { timeout(ttrstrt, tp, c&0177); tp->t_state =| TIMEOUT; } } } /* * Called from device's read routine after it has * calculated the tty-structure given as argument. * The pc is backed up for the duration of this call. * In case of a caught interrupt, an RTI will re-execute. */ ttread(atp) struct tty *atp; { register struct tty *tp; tp = atp; if ((tp->t_state&CARR_ON)==0) return; if (tp->t_canq.c_cc || canon(tp)) while (tp->t_canq.c_cc && passc(getc(&tp->t_canq))>=0); } /* * Called from the device's write routine after it has * calculated the tty-structure given as argument. */ ttwrite(atp) struct tty *atp; { register struct tty *tp; register int c; tp = atp; if ((tp->t_state&CARR_ON)==0) return; while ((c=cpass())>=0) { spl5(); while (tp->t_outq.c_cc > TTHIWAT) { ttstart(tp); tp->t_state =| ASLEEP; sleep(&tp->t_outq, TTOPRI); } spl0(); ttyoutput(c, tp); } ttstart(tp); } /* * Common code for gtty and stty functions on typewriters. * If v is non-zero then gtty is being done and information is * passed back therein; * if it is zero stty is being done and the input information is in the * u_arg array. */ ttystty(atp, av) int *atp, *av; { register *tp, *v; tp = atp; if(v = av) { *v++ = tp->t_speeds; v->lobyte = tp->t_erase; v->hibyte = tp->t_kill; v[1] = tp->t_flags; return(1); } wflushtty(tp); v = u.u_arg; tp->t_speeds = *v++; tp->t_erase = v->lobyte; tp->t_kill = v->hibyte; tp->t_flags = v[1]; return(0); }