/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 1988 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #pragma ident "%Z%%M% %I% %E% SMI" #include "uucp.h" #include "pk.h" #include extern void pkcntl(), pkoutput(), pkclose(), pkreset(), pkzero(), pkgetpack(), pkxstart(); extern int pkread(), pkwrite(), pksack(); static int pksize(), chksum(), pkaccept(); extern int Connodata; /* Continuous No Valid Data Count */ extern int xpacksize; /* * receive control messages * c -> message type fields * pk -> line control unit */ void pkcntl(c, pk) register struct pack *pk; { register cntl, val; val = c & MOD8; cntl = (c>>3) & MOD8; if ( ! ISCNTL(c) ) { logent("PK0", "not cntl"); return; } if (Debug >= 9) xlatecntl(0, c); switch(cntl) { case INITB: val++; pk->p_xsize = xpacksize = pksizes[val]; pk->p_lpsize = val; pk->p_bits = 1; if (pk->p_state & LIVE) { pk->p_msg |= M_INITC; break; } pk->p_state |= INITb; if ((pk->p_state & INITa)==0) { break; } pk->p_rmsg &= ~M_INITA; pk->p_msg |= M_INITC; break; case INITC: if ((pk->p_state&INITab)==INITab) { pk->p_state = LIVE; pk->p_rmsg &= ~M_INITB; } else pk->p_msg |= M_INITB; if (val) pk->p_swindow = val; break; case INITA: if (val==0 && pk->p_state&LIVE) { logent("PK0", "alloc change not implemented"); break; } if (val) { pk->p_state |= INITa; pk->p_msg |= M_INITB; pk->p_rmsg |= M_INITB; pk->p_swindow = val; } break; case RJ: pk->p_state |= RXMIT; pk->p_msg |= M_RR; DEBUG(9, "pkcntl: RJ: Connodata=%d\n", Connodata); /* FALLTHRU */ case RR: pk->p_rpr = val; (void) pksack(pk); break; case CLOSE: pk->p_state = DOWN+RCLOSE; return; } if (pk->p_msg) pkoutput(pk); } static int pkaccept() { register struct pack *pk; register x,seq; char m, cntl, *p, imask, **bp; int bad,accept,skip,t,cc; unsigned short sum; pk = Pk; bad = accept = skip = 0; /* * wait for input */ x = next[pk->p_pr]; while ((imask=pk->p_imap) == 0 && pk->p_rcount==0) { pkgetpack(pk); } pk->p_imap = 0; /* * determine input window in m. */ t = (~(-1<p_rwindow)) <>8; /* * mark newly accepted input buffers */ for(x=0; x<8; x++) { if ((imask & mask[x]) == 0) continue; if (((cntl=pk->p_is[x])&0200)==0) { bad++; free: bp = (char **)pk->p_ib[x]; *bp = (char *)pk->p_ipool; pk->p_ipool = bp; pk->p_is[x] = 0; continue; } pk->p_is[x] = (char) ~(B_COPY+B_MARK); sum = (unsigned)chksum(pk->p_ib[x], pk->p_rsize) ^ (unsigned)(cntl&0377); sum += pk->p_isum[x]; if (sum == CHECK) { seq = (cntl>>3) & MOD8; if (m & mask[seq]) { if (pk->p_is[seq] & (B_COPY | B_MARK)) { dup: pk->p_msg |= M_RR; skip++; goto free; } if (x != seq) { p = pk->p_ib[x]; pk->p_ib[x] = pk->p_ib[seq]; pk->p_is[x] = pk->p_is[seq]; pk->p_ib[seq] = p; } pk->p_is[seq] = B_MARK; accept++; cc = 0; if (cntl&B_SHORT) { pk->p_is[seq] = B_MARK+B_SHORT; p = pk->p_ib[seq]; cc = (unsigned)*p++ & 0377; if (cc & 0200) { cc &= 0177; cc |= *p << 7; } } pk->p_isum[seq] = pk->p_rsize - cc; } else { goto dup; } } else { bad++; goto free; } } /* * scan window again turning marked buffers into * COPY buffers and looking for missing sequence * numbers. */ accept = 0; for(x=next[pk->p_pr],t= -1; m & mask[x]; x = next[x]) { if (pk->p_is[x] & B_MARK) pk->p_is[x] |= B_COPY; if (pk->p_is[x] & B_COPY) { if (t >= 0) { bp = (char **)pk->p_ib[x]; *bp = (char *)pk->p_ipool; pk->p_ipool = bp; pk->p_is[x] = 0; skip++; } else accept++; } else if (t<0) t = x; } if (bad) { pk->p_msg |= M_RJ; } if (skip) { pk->p_msg |= M_RR; } pk->p_rcount = accept; return(accept); } int pkread(ibuf, icount) char *ibuf; int icount; { register struct pack *pk; register x; int is,cc,xfr,count; char *cp, **bp; pk = Pk; xfr = 0; count = 0; while (pkaccept()==0) ; Connodata = 0; /* accecpted a packet -- good data */ while (icount) { x = next[pk->p_pr]; is = pk->p_is[x]; if (is & B_COPY) { cc = MIN(pk->p_isum[x], icount); if (cc==0 && xfr) { break; } if (is & B_RESID) cp = pk->p_rptr; else { cp = pk->p_ib[x]; if (is & B_SHORT) { if (*cp++ & 0200) cp++; } } if (cc) memcpy(ibuf, cp, cc); ibuf += cc; icount -= cc; count += cc; xfr++; pk->p_isum[x] -= cc; if (pk->p_isum[x] == 0) { pk->p_pr = x; bp = (char **)pk->p_ib[x]; *bp = (char *)pk->p_ipool; pk->p_ipool = bp; pk->p_is[x] = 0; pk->p_rcount--; pk->p_msg |= M_RR; } else { pk->p_rptr = cp+cc; pk->p_is[x] |= B_RESID; } if (cc==0) break; } else break; } pkoutput(pk); return(count); } /* return number of bytes writtten */ int pkwrite(ibuf, icount) char *ibuf; int icount; { register struct pack *pk; register x; caddr_t cp; int partial; int cc, fc, count; pk = Pk; if (pk->p_state&DOWN || !pk->p_state&LIVE) { return(-1); } count = icount; do { while (pk->p_xcount>=pk->p_swindow) { pkoutput(pk); pkgetpack(pk); } x = next[pk->p_pscopy]; while (pk->p_os[x]!=B_NULL) { pkgetpack(pk); } pk->p_os[x] = B_MARK; pk->p_pscopy = x; pk->p_xcount++; cp = pk->p_ob[x] = (caddr_t) malloc((unsigned) pk->p_xsize); partial = 0; if ((int)icount < pk->p_xsize) { cc = icount; fc = pk->p_xsize - cc; *cp = fc&0177; if (fc > 127) { *cp++ |= 0200; *cp++ = fc>>7; } else cp++; partial = B_SHORT; } else cc = pk->p_xsize; memcpy(cp, ibuf, cc); ibuf += cc; icount -= cc; pk->p_osum[x] = chksum(pk->p_ob[x], pk->p_xsize); pk->p_os[x] = B_READY+partial; pkoutput(pk); } while (icount); return(count); } int pksack(pk) register struct pack *pk; { register x, i; i = 0; for(x=pk->p_ps; x!=pk->p_rpr; ) { x = next[x]; if (pk->p_os[x]&B_SENT) { i++; Connodata = 0; pk->p_os[x] = B_NULL; pk->p_state &= ~WAITO; pk->p_xcount--; free((char *) pk->p_ob[x]); pk->p_ps = x; } } return(i); } void pkoutput(pk) register struct pack *pk; { register x; char bstate; int i; if (pk->p_obusy++) { pk->p_obusy--; return; } /* * find seq number and buffer state * of next output packet */ if (pk->p_state&RXMIT) pk->p_nxtps = next[pk->p_rpr]; x = pk->p_nxtps; bstate = pk->p_os[x]; /* * Send control packet if indicated */ if (pk->p_msg) { if (pk->p_msg & ~M_RR || !(bstate&B_READY) ) { x = pk->p_msg; for(i=0; i<8; i++) if (x&1) break; else x >>= 1; x = i; x <<= 3; switch(i) { case CLOSE: break; case RJ: case RR: x += pk->p_pr; break; case INITB: x += pksize(pk->p_rsize); break; case INITC: x += pk->p_rwindow; break; case INITA: x += pk->p_rwindow; break; } pk->p_msg &= ~mask[i]; pkxstart(pk, x, -1); goto out; } } /* * Don't send data packets if line is marked dead. */ if (pk->p_state&DOWN) { goto out; } /* * Start transmission (or retransmission) of data packets. */ if (bstate & (B_READY|B_SENT)) { char seq; bstate |= B_SENT; seq = x; pk->p_nxtps = next[x]; x = 0200+pk->p_pr+(seq<<3); if (bstate & B_SHORT) x |= 0100; pkxstart(pk, x, seq); pk->p_os[seq] = bstate; pk->p_state &= ~RXMIT; pk->p_nout++; goto out; } /* * enable timeout if there's nothing to send * and transmission buffers are languishing */ if (pk->p_xcount) { pk->p_timer = 2; pk->p_state |= WAITO; } else pk->p_state &= ~WAITO; out: pk->p_obusy = 0; } /* * shut down line by ignoring new input * letting output drain * releasing space */ void pkclose() { register struct pack *pk; register i; int rcheck; char **bp; pk = Pk; pk->p_state |= DRAINO; /* * try to flush output */ i = 0; pk->p_timer = 2; while (pk->p_xcount && pk->p_state&LIVE) { if (pk->p_state&(RCLOSE+DOWN) || ++i > 2) break; pkoutput(pk); } pk->p_timer = 0; pk->p_state |= DOWN; /* * try to exchange CLOSE messages */ i = 0; while ((pk->p_state&RCLOSE)==0 && i<2) { pk->p_msg = M_CLOSE; pk->p_timer = 2; pkoutput(pk); i++; } /* * free space */ rcheck = 0; for (i=0;i<8;i++) { if (pk->p_os[i]!=B_NULL) { free((char *) pk->p_ob[i]); pk->p_xcount--; } if (pk->p_is[i]!=B_NULL) { free((char *) pk->p_ib[i]); rcheck++; } } while (pk->p_ipool != NULL) { bp = pk->p_ipool; pk->p_ipool = (char **)*bp; rcheck++; free((char *) bp); } if (rcheck != pk->p_rwindow) { logent("PK0", "pkclose rcheck != p_rwindow"); } free((char *) pk); } void pkreset(pk) register struct pack *pk; { pk->p_ps = pk->p_pr = pk->p_rpr = 0; pk->p_nxtps = 1; } static int chksum(s,n) register char *s; register n; { register short sum; register unsigned short t; register short x; sum = -1; x = 0; do { if (sum<0) { sum <<= 1; sum++; } else sum <<= 1; t = sum; sum += (unsigned)*s++ & 0377; x += sum^n; if ((unsigned short)sum <= t) { sum ^= x; } } while (--n > 0); return(sum); } static int pksize(n) register n; { register k; n >>= 5; for(k=0; n >>= 1; k++); return(k); }