/* * Copyright (c) 1980, 1993 * 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. * 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 #if 0 static char sccsid[] = "@(#)names.c 8.1 (Berkeley) 6/6/93"; #endif #endif /* not lint */ #include __FBSDID("$FreeBSD$"); /* * Mail -- a mail program * * Handle name lists. */ #include "rcv.h" #include #include "extern.h" /* * Allocate a single element of a name list, * initialize its name field to the passed * name and return it. */ struct name * nalloc(char str[], int ntype) { struct name *np; np = (struct name *)salloc(sizeof(*np)); np->n_flink = NULL; np->n_blink = NULL; np->n_type = ntype; np->n_name = savestr(str); return (np); } /* * Find the tail of a list and return it. */ struct name * tailof(struct name *name) { struct name *np; np = name; if (np == NULL) return (NULL); while (np->n_flink != NULL) np = np->n_flink; return (np); } /* * Extract a list of names from a line, * and make a list of names from it. * Return the list or NULL if none found. */ struct name * extract(char line[], int ntype) { char *cp, *nbuf; struct name *top, *np, *t; if (line == NULL || *line == '\0') return (NULL); if ((nbuf = malloc(strlen(line) + 1)) == NULL) err(1, "Out of memory"); top = NULL; np = NULL; cp = line; while ((cp = yankword(cp, nbuf)) != NULL) { t = nalloc(nbuf, ntype); if (top == NULL) top = t; else np->n_flink = t; t->n_blink = np; np = t; } (void)free(nbuf); return (top); } /* * Turn a list of names into a string of the same names. */ char * detract(struct name *np, int ntype) { int s, comma; char *cp, *top; struct name *p; comma = ntype & GCOMMA; if (np == NULL) return (NULL); ntype &= ~GCOMMA; s = 0; if (debug && comma) fprintf(stderr, "detract asked to insert commas\n"); for (p = np; p != NULL; p = p->n_flink) { if (ntype && (p->n_type & GMASK) != ntype) continue; s += strlen(p->n_name) + 1; if (comma) s++; } if (s == 0) return (NULL); s += 2; top = salloc(s); cp = top; for (p = np; p != NULL; p = p->n_flink) { if (ntype && (p->n_type & GMASK) != ntype) continue; cp += strlcpy(cp, p->n_name, strlen(p->n_name) + 1); if (comma && p->n_flink != NULL) *cp++ = ','; *cp++ = ' '; } *--cp = '\0'; if (comma && *--cp == ',') *cp = '\0'; return (top); } /* * Grab a single word (liberal word) * Throw away things between ()'s, and take anything between <>. */ char * yankword(char *ap, char wbuf[]) { char *cp, *cp2; cp = ap; for (;;) { if (*cp == '\0') return (NULL); if (*cp == '(') { int nesting = 0; while (*cp != '\0') { switch (*cp++) { case '(': nesting++; break; case ')': --nesting; break; } if (nesting <= 0) break; } } else if (*cp == ' ' || *cp == '\t' || *cp == ',') cp++; else break; } if (*cp == '<') for (cp2 = wbuf; *cp && (*cp2++ = *cp++) != '>';) ; else for (cp2 = wbuf; *cp != '\0' && strchr(" \t,(", *cp) == NULL; *cp2++ = *cp++) ; *cp2 = '\0'; return (cp); } /* * Grab a single login name (liberal word) * Throw away things between ()'s, take anything between <>, * and look for words before metacharacters %, @, !. */ char * yanklogin(char *ap, char wbuf[]) { char *cp, *cp2, *cp_temp; int n; cp = ap; for (;;) { if (*cp == '\0') return (NULL); if (*cp == '(') { int nesting = 0; while (*cp != '\0') { switch (*cp++) { case '(': nesting++; break; case ')': --nesting; break; } if (nesting <= 0) break; } } else if (*cp == ' ' || *cp == '\t' || *cp == ',') cp++; else break; } /* * Now, let's go forward till we meet the needed character, * and step one word back. */ /* First, remember current point. */ cp_temp = cp; n = 0; /* * Note that we look ahead in a cycle. This is safe, since * non-end of string is checked first. */ while(*cp != '\0' && strchr("@%!", *(cp + 1)) == NULL) cp++; /* * Now, start stepping back to the first non-word character, * while counting the number of symbols in a word. */ while(cp != cp_temp && strchr(" \t,<>", *(cp - 1)) == NULL) { n++; cp--; } /* Finally, grab the word forward. */ cp2 = wbuf; while(n >= 0) { *cp2++=*cp++; n--; } *cp2 = '\0'; return (cp); } /* * For each recipient in the passed name list with a / * in the name, append the message to the end of the named file * and remove him from the recipient list. * * Recipients whose name begins with | are piped through the given * program and removed. */ struct name * outof(struct name *names, FILE *fo, struct header *hp) { int c, ispipe; struct name *np, *top; time_t now; char *date, *fname; FILE *fout, *fin; top = names; np = names; (void)time(&now); date = ctime(&now); while (np != NULL) { if (!isfileaddr(np->n_name) && np->n_name[0] != '|') { np = np->n_flink; continue; } ispipe = np->n_name[0] == '|'; if (ispipe) fname = np->n_name+1; else fname = expand(np->n_name); /* * See if we have copied the complete message out yet. * If not, do so. */ if (image < 0) { int fd; char tempname[PATHSIZE]; (void)snprintf(tempname, sizeof(tempname), "%s/mail.ReXXXXXXXXXX", tmpdir); if ((fd = mkstemp(tempname)) == -1 || (fout = Fdopen(fd, "a")) == NULL) { warn("%s", tempname); senderr++; goto cant; } image = open(tempname, O_RDWR); (void)rm(tempname); if (image < 0) { warn("%s", tempname); senderr++; (void)Fclose(fout); goto cant; } (void)fcntl(image, F_SETFD, 1); fprintf(fout, "From %s %s", myname, date); puthead(hp, fout, GTO|GSUBJECT|GCC|GREPLYTO|GINREPLYTO|GNL); while ((c = getc(fo)) != EOF) (void)putc(c, fout); rewind(fo); fprintf(fout, "\n"); (void)fflush(fout); if (ferror(fout)) { warn("%s", tempname); senderr++; (void)Fclose(fout); goto cant; } (void)Fclose(fout); } /* * Now either copy "image" to the desired file * or give it as the standard input to the desired * program as appropriate. */ if (ispipe) { int pid; char *sh; sigset_t nset; /* * XXX * We can't really reuse the same image file, * because multiple piped recipients will * share the same lseek location and trample * on one another. */ if ((sh = value("SHELL")) == NULL) sh = _PATH_CSHELL; (void)sigemptyset(&nset); (void)sigaddset(&nset, SIGHUP); (void)sigaddset(&nset, SIGINT); (void)sigaddset(&nset, SIGQUIT); pid = start_command(sh, &nset, image, -1, "-c", fname, NULL); if (pid < 0) { senderr++; goto cant; } free_child(pid); } else { int f; if ((fout = Fopen(fname, "a")) == NULL) { warn("%s", fname); senderr++; goto cant; } if ((f = dup(image)) < 0) { warn("dup"); fin = NULL; } else fin = Fdopen(f, "r"); if (fin == NULL) { fprintf(stderr, "Can't reopen image\n"); (void)Fclose(fout); senderr++; goto cant; } rewind(fin); while ((c = getc(fin)) != EOF) (void)putc(c, fout); if (ferror(fout)) { warnx("%s", fname); senderr++; (void)Fclose(fout); (void)Fclose(fin); goto cant; } (void)Fclose(fout); (void)Fclose(fin); } cant: /* * In days of old we removed the entry from the * the list; now for sake of header expansion * we leave it in and mark it as deleted. */ np->n_type |= GDEL; np = np->n_flink; } if (image >= 0) { (void)close(image); image = -1; } return (top); } /* * Determine if the passed address is a local "send to file" address. * If any of the network metacharacters precedes any slashes, it can't * be a filename. We cheat with .'s to allow path names like ./... */ int isfileaddr(char *name) { char *cp; if (*name == '+') return (1); for (cp = name; *cp != '\0'; cp++) { if (*cp == '!' || *cp == '%' || *cp == '@') return (0); if (*cp == '/') return (1); } return (0); } /* * Map all of the aliased users in the invoker's mailrc * file and insert them into the list. * Changed after all these months of service to recursively * expand names (2/14/80). */ struct name * usermap(struct name *names) { struct name *new, *np, *cp; struct grouphead *gh; int metoo; new = NULL; np = names; metoo = (value("metoo") != NULL); while (np != NULL) { if (np->n_name[0] == '\\') { cp = np->n_flink; new = put(new, np); np = cp; continue; } gh = findgroup(np->n_name); cp = np->n_flink; if (gh != NULL) new = gexpand(new, gh, metoo, np->n_type); else new = put(new, np); np = cp; } return (new); } /* * Recursively expand a group name. We limit the expansion to some * fixed level to keep things from going haywire. * Direct recursion is not expanded for convenience. */ struct name * gexpand(struct name *nlist, struct grouphead *gh, int metoo, int ntype) { struct group *gp; struct grouphead *ngh; struct name *np; static int depth; char *cp; if (depth > MAXEXP) { printf("Expanding alias to depth larger than %d\n", MAXEXP); return (nlist); } depth++; for (gp = gh->g_list; gp != NULL; gp = gp->ge_link) { cp = gp->ge_name; if (*cp == '\\') goto quote; if (strcmp(cp, gh->g_name) == 0) goto quote; if ((ngh = findgroup(cp)) != NULL) { nlist = gexpand(nlist, ngh, metoo, ntype); continue; } quote: np = nalloc(cp, ntype); /* * At this point should allow to expand * to self if only person in group */ if (gp == gh->g_list && gp->ge_link == NULL) goto skip; if (!metoo && strcmp(cp, myname) == 0) np->n_type |= GDEL; skip: nlist = put(nlist, np); } depth--; return (nlist); } /* * Concatenate the two passed name lists, return the result. */ struct name * cat(struct name *n1, struct name *n2) { struct name *tail; if (n1 == NULL) return (n2); if (n2 == NULL) return (n1); tail = tailof(n1); tail->n_flink = n2; n2->n_blink = tail; return (n1); } /* * Unpack the name list onto a vector of strings. * Return an error if the name list won't fit. */ char ** unpack(struct name *np) { char **ap, **top; struct name *n; int t, extra, metoo, verbose; n = np; if ((t = count(n)) == 0) errx(1, "No names to unpack"); /* * Compute the number of extra arguments we will need. * We need at least two extra -- one for "mail" and one for * the terminating 0 pointer. Additional spots may be needed * to pass along -f to the host mailer. */ extra = 2; extra++; metoo = value("metoo") != NULL; if (metoo) extra++; verbose = value("verbose") != NULL; if (verbose) extra++; top = (char **)salloc((t + extra) * sizeof(*top)); ap = top; *ap++ = "send-mail"; *ap++ = "-i"; if (metoo) *ap++ = "-m"; if (verbose) *ap++ = "-v"; for (; n != NULL; n = n->n_flink) if ((n->n_type & GDEL) == 0) *ap++ = n->n_name; *ap = NULL; return (top); } /* * Remove all of the duplicates from the passed name list by * insertion sorting them, then checking for dups. * Return the head of the new list. */ struct name * elide(struct name *names) { struct name *np, *t, *new; struct name *x; if (names == NULL) return (NULL); new = names; np = names; np = np->n_flink; if (np != NULL) np->n_blink = NULL; new->n_flink = NULL; while (np != NULL) { t = new; while (strcasecmp(t->n_name, np->n_name) < 0) { if (t->n_flink == NULL) break; t = t->n_flink; } /* * If we ran out of t's, put the new entry after * the current value of t. */ if (strcasecmp(t->n_name, np->n_name) < 0) { t->n_flink = np; np->n_blink = t; t = np; np = np->n_flink; t->n_flink = NULL; continue; } /* * Otherwise, put the new entry in front of the * current t. If at the front of the list, * the new guy becomes the new head of the list. */ if (t == new) { t = np; np = np->n_flink; t->n_flink = new; new->n_blink = t; t->n_blink = NULL; new = t; continue; } /* * The normal case -- we are inserting into the * middle of the list. */ x = np; np = np->n_flink; x->n_flink = t; x->n_blink = t->n_blink; t->n_blink->n_flink = x; t->n_blink = x; } /* * Now the list headed up by new is sorted. * Go through it and remove duplicates. */ np = new; while (np != NULL) { t = np; while (t->n_flink != NULL && strcasecmp(np->n_name, t->n_flink->n_name) == 0) t = t->n_flink; if (t == np || t == NULL) { np = np->n_flink; continue; } /* * Now t points to the last entry with the same name * as np. Make np point beyond t. */ np->n_flink = t->n_flink; if (t->n_flink != NULL) t->n_flink->n_blink = np; np = np->n_flink; } return (new); } /* * Put another node onto a list of names and return * the list. */ struct name * put(struct name *list, struct name *node) { node->n_flink = list; node->n_blink = NULL; if (list != NULL) list->n_blink = node; return (node); } /* * Determine the number of undeleted elements in * a name list and return it. */ int count(struct name *np) { int c; for (c = 0; np != NULL; np = np->n_flink) if ((np->n_type & GDEL) == 0) c++; return (c); } /* * Delete the given name from a namelist. */ struct name * delname(struct name *np, char name[]) { struct name *p; for (p = np; p != NULL; p = p->n_flink) if (strcasecmp(p->n_name, name) == 0) { if (p->n_blink == NULL) { if (p->n_flink != NULL) p->n_flink->n_blink = NULL; np = p->n_flink; continue; } if (p->n_flink == NULL) { if (p->n_blink != NULL) p->n_blink->n_flink = NULL; continue; } p->n_blink->n_flink = p->n_flink; p->n_flink->n_blink = p->n_blink; } return (np); } /* * Pretty print a name list * Uncomment it if you need it. */ /* void prettyprint(struct name *name) { struct name *np; np = name; while (np != NULL) { fprintf(stderr, "%s(%d) ", np->n_name, np->n_type); np = np->n_flink; } fprintf(stderr, "\n"); } */