/* ======================================================================== * Copyright 1988-2006 University of Washington * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * * ======================================================================== */ /* * Program: UNIX mail routines, Amiga version * * Author: Mark Crispin * Networks and Distributed Computing * Computing & Communications * University of Washington * Administration Building, AG-44 * Seattle, WA 98195 * Internet: MRC@CAC.Washington.EDU * * Date: 20 December 1989 * Last Edited: 30 August 2006 */ /* DEDICATION * * This file is dedicated to my dog, Unix, also known as Yun-chan and * Unix J. Terwilliker Jehosophat Aloysius Monstrosity Animal Beast. Unix * passed away at the age of 11 1/2 on September 14, 1996, 12:18 PM PDT, after * a two-month bout with cirrhosis of the liver. * * He was a dear friend, and I miss him terribly. * * Lift a leg, Yunie. Luv ya forever!!!! */ /* Validate line * Accepts: pointer to candidate string to validate as a From header * return pointer to end of date/time field * return pointer to offset from t of time (hours of ``mmm dd hh:mm'') * return pointer to offset from t of time zone (if non-zero) * Returns: t,ti,zn set if valid From string, else ti is NIL */ #define VALID(s,x,ti,zn) { \ int remote = 0; \ ti = 0; \ if ((*s == 'F') && (s[1] == 'r') && (s[2] == 'o') && (s[3] == 'm') && \ (s[4] == ' ')) { \ for (x = s + 5; *x && *x != '\012'; x++); \ if (*x) { \ if (x[-1] == '\015') --x; \ if (x - s >= 41) { \ for (zn = -1; x[zn] != ' '; zn--); \ if ((x[zn-1] == 'm') && (x[zn-2] == 'o') && (x[zn-3] == 'r') && \ (x[zn-4] == 'f') && (x[zn-5] == ' ') && (x[zn-6] == 'e') && \ (x[zn-7] == 't') && (x[zn-8] == 'o') && (x[zn-9] == 'm') && \ (x[zn-10] == 'e') && (x[zn-11] == 'r') && (x[zn-12] == ' '))\ { \ while (x[zn-13] == ' ') zn--; \ x += zn - 12; \ remote = 1; \ } \ } \ if (x - s >= 27) { \ if (x[-5] == ' ') { \ if (x[-8] == ':') zn = 0,ti = -5; \ else if (x[-9] == ' ') ti = zn = -9; \ else if ((x[-11] == ' ') && ((x[-10]=='+') || (x[-10]=='-'))) \ ti = zn = -11; \ } \ else if (x[-4] == ' ') { \ if (x[-9] == ' ') zn = -4,ti = -9; \ else if ( (x[-13] == ' ') && (x[-16] == ' ') \ && (x[-20] ==' ') && \ ( ((x[-22] == ' ') && (x[-23] == ',')) || \ ((x[-23] == ' ') && (x[-24] == ',')) ) ) { \ char weekday[4]={0,}, month[4]={0,}, time[11]={0,}; \ char tzone[4]={0,}; \ char realtime[80]; \ int day,year,start=-26; \ if (x[-23] == ' ') x--; \ sscanf(&x[start],"%3c, %d %s %d %s %s", \ weekday,&day,month,&year,time,tzone); \ sprintf(realtime,"%s %s %2d %s %d %s", \ weekday,month,day,time, \ ( (year < 100) ? year+1900 : year),tzone); \ if (remote) \ strcat(realtime," remote from "); \ else \ strcat(realtime,"\n"); \ strncpy(&x[start],realtime,strlen(realtime)); \ zn = -2; \ ti = -7; \ } \ } \ else if (x[-6] == ' ') { \ if ((x[-11] == ' ') && ((x[-5] == '+') || (x[-5] == '-'))) \ zn = -6,ti = -11; \ } \ else if (x[-9] == ' ') { \ if ( ( (x[-12] == ' ') && (x[-16] == ' ') && \ ( ((x[-18] == ' ') && (x[-19] == ',') ) || \ ((x[-19] == ' ') && (x[-20] == ',')) ) \ || \ ((x[-14] == ' ') && (x[-18] == ' ') && \ ( ((x[-20] == ' ') && (x[-21] == ',') ) || \ ((x[-21] == ' ') && (x[-22] == ',')) ) ) ) ) { \ char weekday[4]={0,}, month[4]={0,},time[11]={0,}; \ int day,year,start=-24; \ char realtime[80]; \ if (x[-12] == ' ') x++; \ if (x[-19] == ' ') x++; \ sscanf(&x[start],"%3c, %d %3c %d %s",weekday, \ &day,month,&year,time); \ sprintf(realtime,"%s %s %2d %s %d",weekday,month,day,time,\ ( (year < 100) ? year+1900 : year)); \ if (remote) \ strcat(realtime," remote from "); \ else \ strcat(realtime,"\n"); \ strncpy(&x[start],realtime,strlen(realtime)); \ ti=-5; \ zn=0; \ } \ } \ if (ti && !((x[ti - 3] == ':') && \ (x[ti -= ((x[ti - 6] == ':') ? 9 : 6)] == ' ') && \ (x[ti - 3] == ' ') && (x[ti - 7] == ' ') && \ (x[ti - 11] == ' '))) ti = 0; \ } \ } \ } \ } /* You are not expected to understand this macro, but read the next page if * you are not faint of heart. * * Known formats to the VALID macro are: * From user Wed Dec 2 05:53 1992 * BSD From user Wed Dec 2 05:53:22 1992 * SysV From user Wed Dec 2 05:53 PST 1992 * rn From user Wed Dec 2 05:53:22 PST 1992 * From user Wed Dec 2 05:53 -0700 1992 * emacs From user Wed Dec 2 05:53:22 -0700 1992 * From user Wed Dec 2 05:53 1992 PST * From user Wed Dec 2 05:53:22 1992 PST * From user Wed Dec 2 05:53 1992 -0700 * Solaris From user Wed Dec 2 05:53:22 1992 -0700 * * Amiga From user Wed, 6 Dec 92 05:53:22 who did this !!! * CHANGED in place to * From user Wed Dec 2 05:53:22 1992 * * Plus all of the above with `` remote from xxx'' after it. Thank you very * much, smail and Solaris, for making my life considerably more complicated. */ /* * What? You want to understand the VALID macro anyway? Alright, since you * insist. Actually, it isn't really all that difficult, provided that you * take it step by step. * * Line 1 Initializes the return ti value to failure (0); * Lines 2-3 Validates that the 1st-5th characters are ``From ''. * Lines 4-6 Validates that there is an end of line and points x at it. * Lines 7-14 First checks to see if the line is at least 41 characters long. * If so, it scans backwards to find the rightmost space. From * that point, it scans backwards to see if the string matches * `` remote from''. If so, it sets x to point to the space at * the start of the string. * Line 15 Makes sure that there are at least 27 characters in the line. * Lines 16-21 Checks if the date/time ends with the year (there is a space * five characters back). If there is a colon three characters * further back, there is no timezone field, so zn is set to 0 * and ti is set in front of the year. Otherwise, there must * either to be a space four characters back for a three-letter * timezone, or a space six characters back followed by a + or - * for a numeric timezone; in either case, zn and ti become the * offset of the space immediately before it. * Lines 22-24 Are the failure case for line 14. If there is a space four * characters back, it is a three-letter timezone; there must be a * space for the year nine characters back. zn is the zone * offset; ti is the offset of the space. * Lines 25-28 Are the failure case for line 20. If there is a space six * characters back, it is a numeric timezone; there must be a * space eleven characters back and a + or - five characters back. * zn is the zone offset; ti is the offset of the space. * Line 29-32 If ti is valid, make sure that the string before ti is of the * form www mmm dd hh:mm or www mmm dd hh:mm:ss, otherwise * invalidate ti. There must be a colon three characters back * and a space six or nine characters back (depending upon * whether or not the character six characters back is a colon). * There must be a space three characters further back (in front * of the day), one seven characters back (in front of the month), * and one eleven characters back (in front of the day of week). * ti is set to be the offset of the space before the time. * * Why a macro? It gets invoked a *lot* in a tight loop. On some of the * newer pipelined machines it is faster being open-coded than it would be if * subroutines are called. * * Why does it scan backwards from the end of the line, instead of doing the * much easier forward scan? There is no deterministic way to parse the * ``user'' field, because it may contain unquoted spaces! Yes, I tested it to * see if unquoted spaces were possible. They are, and I've encountered enough * evil mail to be totally unwilling to trust that ``it will never happen''. */ /* Build parameters */ #define KODRETRY 15 /* kiss-of-death retry in seconds */ #define LOCKTIMEOUT 5 /* lock timeout in minutes */ #define CHUNK 16384 /* read-in chunk size */