/* $OpenBSD: lka_session.c,v 1.50 2012/11/27 09:39:44 eric Exp $ */ /* * Copyright (c) 2011 Gilles Chehade * Copyright (c) 2012 Eric Faurot * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smtpd.h" #include "log.h" #define EXPAND_DEPTH 10 #define F_ERROR 0x01 #define F_WAITING 0x02 struct lka_session { uint64_t id; TAILQ_HEAD(, envelope) deliverylist; struct expand expand; int flags; struct submit_status ss; struct envelope envelope; struct xnodes nodes; /* waiting for fwdrq */ struct rule *rule; struct expandnode *node; }; static void lka_expand(struct lka_session *, struct rule *, struct expandnode *); static void lka_submit(struct lka_session *, struct rule *, struct expandnode *); static void lka_resume(struct lka_session *); static size_t lka_expand_format(char *, size_t, const struct envelope *); static void mailaddr_to_username(const struct mailaddr *, char *, size_t); static const char * mailaddr_tag(const struct mailaddr *); static struct tree sessions = SPLAY_INITIALIZER(&sessions); void lka_session(struct submit_status *ss) { struct lka_session *lks; struct expandnode xn; lks = xcalloc(1, sizeof(*lks), "lka_session"); lks->id = generate_uid(); lks->ss = *ss; lks->ss.code = 250; RB_INIT(&lks->expand.tree); TAILQ_INIT(&lks->deliverylist); tree_xset(&sessions, lks->id, lks); lks->envelope = ss->envelope; TAILQ_INIT(&lks->nodes); bzero(&xn, sizeof xn); xn.type = EXPAND_ADDRESS; xn.u.mailaddr = lks->envelope.dest; /* XXX we should only have rcpt */ lks->expand.rule = NULL; lks->expand.queue = &lks->nodes; expand_insert(&lks->expand, &xn); lka_resume(lks); } void lka_session_forward_reply(struct forward_req *fwreq, int fd) { struct lka_session *lks; struct rule *rule; struct expandnode *xn; lks = tree_xget(&sessions, fwreq->id); xn = lks->node; rule = lks->rule; lks->flags &= ~F_WAITING; if (fd == -1 && fwreq->status) { /* no .forward, just deliver to local user */ log_debug("debug: lka: no .forward for user %s, just deliver", fwreq->as_user); lka_submit(lks, rule, xn); } else if (fd == -1) { log_debug("debug: lka: opening .forward failed for user %s", fwreq->as_user); lks->ss.code = 530; lks->flags |= F_ERROR; } else { /* expand for the current user and rule */ lks->expand.rule = rule; lks->expand.parent = xn; lks->expand.alias = 0; if (forwards_get(fd, &lks->expand) == 0) { /* no aliases */ lks->ss.code = 530; lks->flags |= F_ERROR; } close(fd); } lka_resume(lks); } static void lka_resume(struct lka_session *lks) { struct envelope *ep; struct expandnode *xn; if (lks->flags & F_ERROR) goto error; /* pop next node and expand it */ while((xn = TAILQ_FIRST(&lks->nodes))) { TAILQ_REMOVE(&lks->nodes, xn, tq_entry); lka_expand(lks, xn->rule, xn); if (lks->flags & F_WAITING) return; if (lks->flags & F_ERROR) goto error; } /* delivery list is empty, reject */ if (TAILQ_FIRST(&lks->deliverylist) == NULL) { log_debug("debug: lka_done: expansion led to empty delivery list"); lks->flags |= F_ERROR; } error: if (lks->flags & F_ERROR) { imsg_compose_event(env->sc_ievs[PROC_MFA], IMSG_LKA_RCPT, 0, 0, -1, &lks->ss, sizeof(struct submit_status)); while ((ep = TAILQ_FIRST(&lks->deliverylist)) != NULL) { TAILQ_REMOVE(&lks->deliverylist, ep, entry); free(ep); } } else { /* process the delivery list and submit envelopes to queue */ while ((ep = TAILQ_FIRST(&lks->deliverylist)) != NULL) { TAILQ_REMOVE(&lks->deliverylist, ep, entry); imsg_compose_event(env->sc_ievs[PROC_QUEUE], IMSG_QUEUE_SUBMIT_ENVELOPE, 0, 0, -1, ep, sizeof *ep); free(ep); } ep = &lks->ss.envelope; imsg_compose_event(env->sc_ievs[PROC_QUEUE], IMSG_QUEUE_COMMIT_ENVELOPES, 0, 0, -1, ep, sizeof *ep); } expand_free(&lks->expand); tree_xpop(&sessions, lks->id); free(lks); } static void lka_expand(struct lka_session *lks, struct rule *rule, struct expandnode *xn) { struct forward_req fwreq; struct envelope ep; struct expandnode node; struct passwd *pw; int r; if (xn->depth >= EXPAND_DEPTH) { log_debug("debug: lka_expand: node too deep."); lks->flags |= F_ERROR; lks->ss.code = 530; return; } switch (xn->type) { case EXPAND_INVALID: case EXPAND_INCLUDE: fatalx("lka_expand: unexpected type"); break; case EXPAND_ADDRESS: log_debug("debug: lka_expand: expanding address: %s@%s [depth=%d]", xn->u.mailaddr.user, xn->u.mailaddr.domain, xn->depth); /* Pass the node through the ruleset */ ep = lks->envelope; ep.dest = xn->u.mailaddr; if (xn->parent) /* nodes with parent are forward addresses */ ep.flags |= DF_INTERNAL; rule = ruleset_match(&ep); if (rule == NULL || rule->r_decision == R_REJECT) { lks->flags |= F_ERROR; lks->ss.code = (errno == EAGAIN ? 451 : 530); break; /* no rule for address or REJECT match */ } if (rule->r_action == A_RELAY || rule->r_action == A_RELAYVIA) { lka_submit(lks, rule, xn); } else if (rule->r_condition.c_type == COND_VDOM) { /* expand */ lks->expand.rule = rule; lks->expand.parent = xn; lks->expand.alias = 1; r = aliases_virtual_get(rule->r_condition.c_map, &lks->expand, &xn->u.mailaddr); if (r == -1) { lks->flags |= F_ERROR; lks->ss.code = 451; log_debug( "lka_expand: error in virtual alias lookup"); } else if (r == 0) { lks->flags |= F_ERROR; lks->ss.code = 530; log_debug("debug: lka_expand: no aliases for virtual"); } } else { lks->expand.rule = rule; lks->expand.parent = xn; lks->expand.alias = 1; bzero(&node, sizeof(node)); node.type = EXPAND_USERNAME; mailaddr_to_username(&xn->u.mailaddr, node.u.user, sizeof node.u.user); expand_insert(&lks->expand, &node); } break; case EXPAND_USERNAME: log_debug("debug: lka_expand: expanding username: %s [depth=%d]", xn->u.user, xn->depth); if (xn->sameuser) { log_debug("debug: lka_expand: same user, submitting"); lka_submit(lks, rule, xn); break; } /* expand aliases with the given rule */ lks->expand.rule = rule; lks->expand.parent = xn; lks->expand.alias = 1; if (rule->r_amap) { r = aliases_get(rule->r_amap, &lks->expand, xn->u.user); if (r == -1) { log_debug("debug: lka_expand: error in alias lookup"); lks->flags |= F_ERROR; lks->ss.code = 451; } if (r) break; } /* a username should not exceed the size of a system user */ if (strlen(xn->u.user) >= sizeof fwreq.as_user) { log_debug("debug: lka_expand: user-part too long to be a system user"); lks->flags |= F_ERROR; lks->ss.code = 530; break; } pw = getpwnam(xn->u.user); if (pw == NULL) { log_debug("debug: lka_expand: user-part does not match system user"); lks->flags |= F_ERROR; lks->ss.code = 530; break; } /* no aliases found, query forward file */ lks->rule = rule; lks->node = xn; fwreq.id = lks->id; (void)strlcpy(fwreq.as_user, xn->u.user, sizeof(fwreq.as_user)); imsg_compose_event(env->sc_ievs[PROC_PARENT], IMSG_PARENT_FORWARD_OPEN, 0, 0, -1, &fwreq, sizeof(fwreq)); lks->flags |= F_WAITING; break; case EXPAND_FILENAME: log_debug("debug: lka_expand: expanding filename: %s [depth=%d]", xn->u.buffer, xn->depth); lka_submit(lks, rule, xn); break; case EXPAND_FILTER: log_debug("debug: lka_expand: expanding filter: %s [depth=%d]", xn->u.buffer, xn->depth); lka_submit(lks, rule, xn); break; } } static struct expandnode * lka_find_ancestor(struct expandnode *xn, enum expand_type type) { while(xn && (xn->type != type)) xn = xn->parent; if (xn == NULL) { log_warnx("warn: lka_find_ancestor: no ancestors of type %i", type); fatalx(NULL); } return (xn); } static void lka_submit(struct lka_session *lks, struct rule *rule, struct expandnode *xn) { struct envelope *ep; struct expandnode *xn2; const char *tag; ep = xmemdup(&lks->envelope, sizeof *ep, "lka_submit"); ep->expire = rule->r_qexpire; switch (rule->r_action) { case A_RELAY: case A_RELAYVIA: if (xn->type != EXPAND_ADDRESS) fatalx("lka_deliver: expect address"); ep->type = D_MTA; ep->dest = xn->u.mailaddr; ep->agent.mta.relay = rule->r_value.relayhost; if (rule->r_as && rule->r_as->user[0]) strlcpy(ep->sender.user, rule->r_as->user, sizeof ep->sender.user); if (rule->r_as && rule->r_as->domain[0]) strlcpy(ep->sender.domain, rule->r_as->domain, sizeof ep->sender.domain); break; case A_MBOX: case A_MAILDIR: case A_FILENAME: case A_MDA: ep->type = D_MDA; ep->dest = lka_find_ancestor(xn, EXPAND_ADDRESS)->u.mailaddr; /* set username */ if ((xn->type == EXPAND_FILTER || xn->type == EXPAND_FILENAME) && xn->alias) { strlcpy(ep->agent.mda.user, SMTPD_USER, sizeof (ep->agent.mda.user)); } else { xn2 = lka_find_ancestor(xn, EXPAND_USERNAME); strlcpy(ep->agent.mda.user, xn2->u.user, sizeof (ep->agent.mda.user)); } if (xn->type == EXPAND_FILENAME) { ep->agent.mda.method = A_FILENAME; strlcpy(ep->agent.mda.buffer, xn->u.buffer, sizeof ep->agent.mda.buffer); } else if (xn->type == EXPAND_FILTER) { ep->agent.mda.method = A_MDA; strlcpy(ep->agent.mda.buffer, xn->u.buffer, sizeof ep->agent.mda.buffer); } else if (xn->type == EXPAND_USERNAME) { ep->agent.mda.method = rule->r_action; strlcpy(ep->agent.mda.buffer, rule->r_value.buffer, sizeof ep->agent.mda.buffer); tag = mailaddr_tag(&ep->dest); if (rule->r_action == A_MAILDIR && tag && tag[0]) { strlcat(ep->agent.mda.buffer, "/.", sizeof (ep->agent.mda.buffer)); strlcat(ep->agent.mda.buffer, tag, sizeof (ep->agent.mda.buffer)); } } else fatalx("lka_deliver: bad node type"); if (! lka_expand_format(ep->agent.mda.buffer, sizeof(ep->agent.mda.buffer), ep)) { lks->flags |= F_ERROR; lks->ss.code = 451; log_warnx("warn: format string result too long while " " expanding for user %s", ep->agent.mda.user); free(ep); return; } break; default: fatalx("lka_submit: bad rule action"); } TAILQ_INSERT_TAIL(&lks->deliverylist, ep, entry); } static size_t lka_expand_format(char *buf, size_t len, const struct envelope *ep) { char *p, *pbuf; size_t ret, lret = 0; struct user_backend *ub; struct mta_user u; char lbuffer[MAX_RULEBUFFER_LEN]; char tmpbuf[MAX_RULEBUFFER_LEN]; if (len < sizeof lbuffer) return 0; bzero(lbuffer, sizeof (lbuffer)); pbuf = lbuffer; ret = 0; for (p = buf; *p != '\0' && ret < sizeof (lbuffer); ++p, len -= lret, pbuf += lret, ret += lret) { if (p == buf && *p == '~') { if (*(p + 1) == '/' || *(p + 1) == '\0') { bzero(&u, sizeof (u)); ub = user_backend_lookup(USER_PWD); if (! ub->getbyname(&u, ep->agent.mda.user)) return 0; lret = strlcat(pbuf, u.directory, len); if (lret >= len) return 0; continue; } if (*(p + 1) != '/') { char username[MAXLOGNAME]; char *delim; lret = strlcpy(username, p + 1, sizeof(username)); if (lret >= sizeof(username)) return 0; delim = strchr(username, '/'); if (delim == NULL) goto copy; *delim = '\0'; bzero(&u, sizeof (u)); ub = user_backend_lookup(USER_PWD); if (! ub->getbyname(&u, username)) return 0; lret = strlcat(pbuf, u.directory, len); if (lret >= len) return 0; p += strlen(username); continue; } } if (*p == '%') { const char *string, *tmp = p + 1; int digit = 0; if (isdigit((int)*tmp)) { digit = 1; tmp++; } switch (*tmp) { case 'A': string = ep->sender.user; break; case 'D': string = ep->sender.domain; break; case 'u': string = ep->agent.mda.user; break; case 'a': string = ep->dest.user; break; case 'd': string = ep->dest.domain; break; default: goto copy; } if (! lowercase(tmpbuf, string, sizeof tmpbuf)) return 0; string = tmpbuf; if (digit == 1) { size_t idx = *(tmp - 1) - '0'; lret = 1; if (idx < strlen(string)) *pbuf++ = string[idx]; else { /* fail */ return 0; } p += 2; /* loop only does ++ */ continue; } lret = strlcat(pbuf, string, len); if (lret >= len) return 0; p++; continue; } copy: lret = 1; *pbuf = *p; } /* we aborted loop because we reached max buffer size, fail. */ if (ret == sizeof (lbuffer)) return 0; /* shouldn't happen but better be safe ... */ if (strlcpy(buf, lbuffer, len) >= len) return 0; return ret; } static void mailaddr_to_username(const struct mailaddr *maddr, char *dst, size_t len) { char *tag; xlowercase(dst, maddr->user, len); /* gilles+hackers@ -> gilles@ */ if ((tag = strchr(dst, '+')) != NULL) *tag++ = '\0'; } static const char * mailaddr_tag(const struct mailaddr *maddr) { const char *tag; if ((tag = strchr(maddr->user, '+'))) { tag++; while (*tag == '.') tag++; } return (tag); }