Mercurial > dnsbl
view src/context.cpp @ 101:6ac7ba4a8312 stable-5-9
fix <> passed as <<>> to verification hosts
author | carl |
---|---|
date | Mon, 26 Sep 2005 20:40:29 -0700 |
parents | 63e8633abc34 |
children | aa07452e641b |
line wrap: on
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/* Copyright (c) 2004 Carl Byington - 510 Software Group, released under the GPL version 2 or any later version at your choice available at http://www.fsf.org/licenses/gpl.txt */ #include "includes.h" // needed for socket io #include <unistd.h> #include <sys/ioctl.h> #include <net/if.h> #include <arpa/inet.h> #include <netinet/in.h> #include <netinet/tcp.h> #include <netdb.h> #include <sys/socket.h> #include <sys/un.h> static char* context_version="$Id$"; char *token_black; char *token_content; char *token_context; char *token_dccfrom; char *token_dccto; char *token_default; char *token_dnsbl; char *token_dnsbll; char *token_envfrom; char *token_envto; char *token_filter; char *token_host_limit; char *token_html_limit; char *token_html_tags; char *token_ignore; char *token_include; char *token_inherit; char *token_lbrace; char *token_mailhost; char *token_many; char *token_off; char *token_ok2; char *token_ok; char *token_on; char *token_rbrace; char *token_semi; char *token_soft; char *token_substitute; char *token_tld; char *token_unknown; char *token_verify; char *token_white; char *token_myhostname; #ifndef HOST_NAME_MAX #define HOST_NAME_MAX 255 #endif char myhostname[HOST_NAME_MAX+1]; verify_map verifiers; string_set all_strings; // owns all the strings, only modified by the config loader thread const int maxlen = 1000; // used for snprintf buffers const int maxage = 120; // smtp verify sockets older than this are ancient extern int NULL_SOCKET; extern time_t ERROR_SOCKET_TIME; // number of seconds between attempts to open a socket an smtp host for address verification int SMTP::writer() { #ifdef VERIFY_DEBUG log("writer() sees buffer with %s", buffer); log("writer() sees error %d", (int)error); #endif int rs = 0; if (!error) { int len = strlen(buffer); while (rs < len) { int ws = write(fd, buffer+rs, len-rs); if (ws > 0) { rs += ws; } else { // peer closed the socket! rs = 0; error = true; break; } } } return rs; } int SMTP::reader() { // read some bytes terminated by lf or end of buffer. // we may have a multi line response or part thereof in the buffer. #ifdef VERIFY_DEBUG log("reader() sees error %d", (int)error); #endif if (error) return 0; int len = maxlen-1; // room for null terminator while (pending < len) { int ws = read(fd, buffer+pending, len-pending); if (ws > 0) { pending += ws; if (buffer[pending-1] == '\n') break; } else { // peer closed the socket! pending = 0; error = true; break; } } buffer[pending] = '\0'; #ifdef VERIFY_DEBUG log("reader() sees buffer with %s", buffer); #endif return pending; } int SMTP::read_line() { char *lf = strchr(buffer, '\n'); if (!lf) { reader(); // get a lf lf = strchr(buffer, '\n'); if (!lf) lf = buffer + pending - 1; } return (lf-buffer)+1; // number of bytes in this line } void SMTP::flush_line(int r) { if (pending > r) memmove(buffer, buffer+r, pending-r); pending -= r; } int SMTP::read_response() { pending = 0; buffer[pending] = '\0'; while (true) { int r = read_line(); #ifdef VERIFY_DEBUG log("read_response() sees line with %s", buffer); log("read_response() sees line length %d", r); #endif if (r == 0) return 0; // failed to read any bytes if ((r > 4) && (buffer[3] == '-')) { flush_line(r); continue; } return atoi(buffer); } return 0; } int SMTP::cmd(char *c) { if (c) { init(); append(c); } append("\r\n"); writer(); return read_response(); } int SMTP::helo() { if (read_response() != 220) return 0; init(); append("HELO "); append(token_myhostname); return cmd(NULL); } int SMTP::rset() { int rc = cmd("RSET"); efrom[0] = '\0'; return rc; } int SMTP::from(char *f) { // the mail from address was originally passed in from sendmail enclosed in // <>. to_lower_string() removed the <> and converted the rest to lowercase, // except in the case of an empty return path, which was left as the two // character string <>. if (strncmp(efrom, f, maxlen)) { rset(); strncpy(efrom, f, maxlen); init(); append("MAIL FROM:<"); if (*f != '<') append(f); append(">"); return cmd(NULL); } return 250; // pretend it worked } int SMTP::rcpt(char *t) { init(); append("RCPT TO:<"); append(t); append(">"); return cmd(NULL); } int SMTP::quit() { return cmd("QUIT"); } void SMTP::closefd() { shutdown(fd, SHUT_RDWR); close(fd); } #ifdef VERIFY_DEBUG void SMTP::log(char *m, int v) { char buf[maxlen]; snprintf(buf, maxlen, m, v); my_syslog(buf); } void SMTP::log(char *m, char *v) { char buf[maxlen]; snprintf(buf, maxlen, m, v); my_syslog(buf); } #endif VERIFY::VERIFY(char *h) { host = h; last_err = 0; pthread_mutex_init(&mutex, 0); } void VERIFY::closer() { bool ok = true; while (ok) { SMTP *conn = NULL; pthread_mutex_lock(&mutex); if (connections.empty()) { ok = false; } else { conn = connections.front(); time_t now = time(NULL); if ((now - conn->get_stamp()) > maxage) { // this connection is ancient, remove it connections.pop_front(); } else { ok = false; conn = NULL; } } pthread_mutex_unlock(&mutex); // avoid doing this work inside the mutex lock if (conn) { #ifdef VERIFY_DEBUG conn->log("closer() closes ancient %d", conn->get_fd()); #endif delete conn; } } } SMTP* VERIFY::get_connection() { SMTP *conn = NULL; pthread_mutex_lock(&mutex); if (!connections.empty()) { conn = connections.front(); connections.pop_front(); #ifdef VERIFY_DEBUG conn->log("get_connection() %d from cache", conn->get_fd()); #endif } pthread_mutex_unlock(&mutex); if (conn) return conn; time_t now = time(NULL); int sock = NULL_SOCKET; if ((now - last_err) > ERROR_SOCKET_TIME) { // nothing recent, maybe this time it will work hostent *h = gethostbyname(host); if (h) { sockaddr_in server; server.sin_family = h->h_addrtype; server.sin_port = htons(25); memcpy(&server.sin_addr, h->h_addr_list[0], h->h_length); sock = socket(PF_INET, SOCK_STREAM, 0); if (sock != NULL_SOCKET) { bool rc = (connect(sock, (sockaddr *)&server, sizeof(server)) == 0); if (!rc) { shutdown(sock, SHUT_RDWR); close(sock); sock = NULL_SOCKET; last_err = now; } } else last_err = now; } else last_err = now; } if (sock != NULL_SOCKET) { conn = new SMTP(sock); #ifdef VERIFY_DEBUG conn->log("get_connection() %d new socket", conn->get_fd()); #endif if (conn->helo() == 250) return conn; delete conn; } return NULL; } void VERIFY::put_connection(SMTP *conn) { if (conn->err()) { #ifdef VERIFY_DEBUG conn->log("put_socket() %d with error, close it", conn->get_fd()); #endif delete conn; last_err = time(NULL); } else { #ifdef VERIFY_DEBUG conn->log("put_socket() %d", conn->get_fd()); #endif conn->now(); pthread_mutex_lock(&mutex); connections.push_back(conn); pthread_mutex_unlock(&mutex); } } bool VERIFY::ok(char *from, char *to) { if (host == token_myhostname) return true; SMTP *conn = get_connection(); if (!conn) return true; // cannot verify right now, we have socket errors int rc; rc = conn->from(from); #ifdef VERIFY_DEBUG conn->log("verify::ok() from sees %d", rc); #endif if (rc != 250) { conn->rset(); put_connection(conn); return (rc >= 500) ? false : true; } rc = conn->rcpt(to); #ifdef VERIFY_DEBUG conn->log("verify::ok() rcpt sees %d", rc); #endif put_connection(conn); return (rc >= 500) ? false : true; } DNSBL::DNSBL(char *n, char *s, char *m) { name = n; suffix = s; message = m; } bool DNSBL::operator==(const DNSBL &rhs) { return (strcmp(name, rhs.name) == 0) && (strcmp(suffix, rhs.suffix) == 0) && (strcmp(message, rhs.message) == 0); } CONFIG::CONFIG() { reference_count = 0; generation = 0; load_time = 0; default_context = NULL; } CONFIG::~CONFIG() { for (context_list::iterator i=contexts.begin(); i!=contexts.end(); i++) { CONTEXT *c = *i; delete c; } } void CONFIG::add_context(CONTEXTP con) { contexts.push_back(con); if (!default_context && !con->get_parent()) { // first global context default_context = con; } } void CONFIG::add_to(char *to, CONTEXTP con) { context_map::iterator i = env_to.find(to); if (i != env_to.end()) { CONTEXTP c = (*i).second; int s = strlen(to); bool at = s && (to[s-1] == '@'); if (at && con->is_parent(c->get_parent())) { if (debug_syslog) { char oldname[maxlen]; char newname[maxlen]; char *oldn = c->get_full_name(oldname, maxlen); char *newn = con->get_full_name(newname, maxlen); char buf[maxlen*3]; snprintf(buf, maxlen*3, "both %s and %s claim envelope to %s, the first one wins", oldn, newn, to); my_syslog(buf); } return; // don't take over user@ entries from your ancestors children } if ((c != con) && (c != con->get_parent())) { if (debug_syslog) { char oldname[maxlen]; char newname[maxlen]; char *oldn = c->get_full_name(oldname, maxlen); char *newn = con->get_full_name(newname, maxlen); char buf[maxlen*3]; snprintf(buf, maxlen*3, "both %s and %s claim envelope to %s, the second one wins", oldn, newn, to); my_syslog(buf); } } } env_to[to] = con; } CONTEXTP CONFIG::find_context(char *to) { context_map::iterator i = env_to.find(to); if (i != env_to.end()) return (*i).second; // found user@domain.tld key char *x = strchr(to, '@'); if (x) { x++; i = env_to.find(x); if (i != env_to.end()) return (*i).second; // found domain.tld key char y = *x; *x = '\0'; i = env_to.find(to); *x = y; if (i != env_to.end()) return (*i).second; // found user@ key } return default_context; } void CONFIG::dump() { if (default_context) default_context->dump(); for (context_list::iterator i=contexts.begin(); i!=contexts.end(); i++) { CONTEXTP c = *i; CONTEXTP p = c->get_parent(); if (!p && (c != default_context)) c->dump(); } char buf[maxlen]; for (context_map::iterator i=env_to.begin(); i!=env_to.end(); i++) { char *to = (*i).first; CONTEXTP con = (*i).second; printf("// envelope to %s \t-> context %s \n", to, con->get_full_name(buf,maxlen)); } } CONTEXT::CONTEXT(CONTEXTP parent_, char *name_) { parent = parent_; name = name_; verify_host = NULL; env_from_default = (parent) ? token_inherit : token_unknown; content_filtering = (parent) ? parent->content_filtering : false; content_suffix = NULL; content_message = NULL; host_limit = (parent) ? parent->host_limit : 0; host_limit_message = NULL; host_random = (parent) ? parent->host_random : false; tag_limit = (parent) ? parent->tag_limit : 0; tag_limit_message = NULL; } CONTEXT::~CONTEXT() { for (dnsblp_map::iterator i=dnsbl_names.begin(); i!=dnsbl_names.end(); i++) { DNSBLP d = (*i).second; // delete the underlying DNSBL objects. delete d; } } bool CONTEXT::is_parent(CONTEXTP p) { if (p == parent) return true; if (!parent) return false; return parent->is_parent(p); } char *CONTEXT::get_full_name(char *buffer, int size) { if (!parent) return name; char buf[maxlen]; snprintf(buffer, size, "%s.%s", parent->get_full_name(buf, maxlen), name); return buffer; } bool CONTEXT::cover_env_to(char *to) { char buffer[maxlen]; char *x = strchr(to, '@'); if (x) x++; else x = to; if (*x == '\0') return true; // always allow covering addresses with no domain name, eg abuse@ if (!parent && env_to.empty()) return true; // empty env_to at global level covers everything string_set::iterator i = env_to.find(x); if (i != env_to.end()) return true; return false; } VERIFYP CONTEXT::find_verify(char *to) { if (verify_host && (verify_host != token_myhostname) && cover_env_to(to)) { verify_map::iterator i = verifiers.find(verify_host); if (i == verifiers.end()) { if (debug_syslog) { char buf[maxlen]; snprintf(buf, maxlen, "cannot find struc for %s", verify_host); my_syslog(buf); } return NULL; } VERIFYP v = (*i).second; return v; } else if (parent) return parent->find_verify(to); else return NULL; } char *CONTEXT::find_from(char *from) { char *rc = token_inherit; string_map::iterator i = env_from.find(from); if (i != env_from.end()) rc = (*i).second; // found user@domain.tld key else { char *x = strchr(from, '@'); if (x) { x++; i = env_from.find(x); if (i != env_from.end()) rc = (*i).second; // found domain.tld key else { char y = *x; *x = '\0'; i = env_from.find(from); *x = y; if (i != env_from.end()) rc = (*i).second; // found user@ key } } } if (rc == token_inherit) rc = env_from_default; if ((rc == token_inherit) && parent) return parent->find_from(from); return (rc == token_inherit) ? token_unknown : rc; } CONTEXTP CONTEXT::find_context(char *from) { context_map::iterator i = env_from_context.find(from); if (i != env_from_context.end()) return (*i).second; // found user@domain.tld key char *x = strchr(from, '@'); if (x) { x++; i = env_from_context.find(x); if (i != env_from_context.end()) return (*i).second; // found domain.tld key char y = *x; *x = '\0'; i = env_from_context.find(from); *x = y; if (i != env_from_context.end()) return (*i).second; // found user@ key } return this; } CONTEXTP CONTEXT::find_from_context_name(char *name) { context_map::iterator i = children.find(name); if (i != children.end()) return (*i).second; return NULL; } DNSBLP CONTEXT::find_dnsbl(char *name) { dnsblp_map::iterator i = dnsbl_names.find(name); if (i != dnsbl_names.end()) return (*i).second; if (parent) return parent->find_dnsbl(name); return NULL; } char* CONTEXT::get_content_suffix() { if (!content_suffix && parent) return parent->get_content_suffix(); return content_suffix; } char* CONTEXT::get_content_message() { if (!content_message && parent) return parent->get_content_message(); return content_message; } string_set& CONTEXT::get_content_host_ignore() { if (content_host_ignore.empty() && parent) return parent->get_content_host_ignore(); return content_host_ignore; } string_set& CONTEXT::get_content_tlds() { if (content_tlds.empty() && parent) return parent->get_content_tlds(); return content_tlds; } string_set& CONTEXT::get_html_tags() { if (html_tags.empty() && parent) return parent->get_html_tags(); return html_tags; } dnsblp_list& CONTEXT::get_dnsbl_list() { if (dnsbl_list.empty() && parent) return parent->get_dnsbl_list(); return dnsbl_list; } bool CONTEXT::acceptable_content(recorder &memory, char *&msg) { if (memory.excessive_bad_tags(tag_limit)) { msg = tag_limit_message; return false; } if (!host_random && memory.excessive_hosts(host_limit)) { msg = host_limit_message; return false; } return true; } void CONTEXT::dump(int level) { char indent[maxlen]; int i = min(maxlen-1, level*4); memset(indent, ' ', i); indent[i] = '\0'; char buf[maxlen]; char *fullname = get_full_name(buf,maxlen); printf("%s context %s { \t// %s\n", indent, name, fullname); for (dnsblp_map::iterator i=dnsbl_names.begin(); i!=dnsbl_names.end(); i++) { char *n = (*i).first; DNSBL &d = *(*i).second; printf("%s dnsbl %s %s \"%s\"; \n", indent, n, d.suffix, d.message); } if (!dnsbl_list.empty()) { printf("%s dnsbl_list", indent); for (dnsblp_list::iterator i=dnsbl_list.begin(); i!=dnsbl_list.end(); i++) { DNSBL &d = *(*i); printf(" %s", d.name); } printf("; \n"); } if (content_filtering) { printf("%s content on { \n", indent, env_from_default); if (content_suffix) { printf("%s filter %s \"%s\"; \n", indent, content_suffix, content_message); } if (!content_host_ignore.empty()) { printf("%s ignore { \n", indent); for (string_set::iterator i=content_host_ignore.begin(); i!=content_host_ignore.end(); i++) { printf("%s %s; \n", indent, *i); } printf("%s }; \n", indent); } if (!content_tlds.empty()) { printf("%s tld { \n", indent); printf("%s ", indent); for (string_set::iterator i=content_tlds.begin(); i!=content_tlds.end(); i++) { printf("%s; ", *i); } printf("\n%s }; \n", indent); } if (!html_tags.empty()) { printf("%s html_tags { \n", indent); printf("%s ", indent); for (string_set::iterator i=html_tags.begin(); i!=html_tags.end(); i++) { printf("%s; ", *i); } printf("\n%s }; \n", indent); } if (host_limit_message) { printf("%s host_limit on %d \"%s\"; \n", indent, host_limit, host_limit_message); } else if (host_random) { printf("%s host_limit soft %d; \n", indent, host_limit); } else { printf("%s host_limit off; \n", indent); } if (tag_limit_message) { printf("%s html_limit on %d \"%s\"; \n", indent, tag_limit, tag_limit_message); } else { printf("%s html_limit off; \n", indent); } printf("%s }; \n", indent); } else { printf("%s content off {}; \n", indent, env_from_default); } printf("%s env_to { \t// %s\n", indent, fullname); for (string_set::iterator i=env_to.begin(); i!=env_to.end(); i++) { printf("%s %s; \n", indent, *i); } printf("%s }; \n", indent); if (verify_host) { printf("%s verify %s; \n", indent, verify_host); } for (context_map::iterator i=children.begin(); i!=children.end(); i++) { CONTEXTP c = (*i).second; c->dump(level+1); } printf("%s env_from %s { \t// %s\n", indent, env_from_default, fullname); if (!env_from.empty()) { printf("%s // white/black/unknown \n", indent); for (string_map::iterator i=env_from.begin(); i!=env_from.end(); i++) { char *f = (*i).first; char *t = (*i).second; printf("%s %s \t%s; \n", indent, f, t); } } if (!env_from_context.empty()) { printf("%s // child contexts \n", indent); for (context_map::iterator j=env_from_context.begin(); j!=env_from_context.end(); j++) { char *f = (*j).first; CONTEXTP t = (*j).second; printf("%s %s \t%s; \n", indent, f, t->name); } } printf("%s }; \n", indent); printf("%s }; \n", indent); } //////////////////////////////////////////////// // helper to discard the strings held by a string_set // void discard(string_set &s) { for (string_set::iterator i=s.begin(); i!=s.end(); i++) { free(*i); } s.clear(); } //////////////////////////////////////////////// // helper to register a string in a string set // char* register_string(string_set &s, char *name) { string_set::iterator i = s.find(name); if (i != s.end()) return *i; char *x = strdup(name); s.insert(x); return x; } //////////////////////////////////////////////// // register a global string // char* register_string(char *name) { return register_string(all_strings, name); } //////////////////////////////////////////////// // bool tsa(TOKEN &tok, char *token); bool tsa(TOKEN &tok, char *token) { char *have = tok.next(); if (have == token) return true; tok.token_error(token, have); return false; } //////////////////////////////////////////////// // bool parse_dnsbl(TOKEN &tok, CONFIG &dc, CONTEXT &me); bool parse_dnsbl(TOKEN &tok, CONFIG &dc, CONTEXT &me) { char *name = tok.next(); char *suf = tok.next(); char *msg = tok.next(); if (!tsa(tok, token_semi)) return false; DNSBLP dnsnew = new DNSBL(name, suf, msg); DNSBLP dnsold = me.find_dnsbl(name); if (dnsold && (*dnsold == *dnsnew)) { // duplicate redefinition, ignore it delete dnsnew; return true; } me.add_dnsbl(name, dnsnew); return true; } //////////////////////////////////////////////// // bool parse_dnsbll(TOKEN &tok, CONFIG &dc, CONTEXT &me); bool parse_dnsbll(TOKEN &tok, CONFIG &dc, CONTEXT &me) { while (true) { char *have = tok.next(); if (!have) break; if (have == token_semi) break; DNSBLP dns = me.find_dnsbl(have); if (dns) { me.add_dnsbl(dns); } else { tok.token_error("dnsbl name", have); return false; } } return true; } //////////////////////////////////////////////// // bool parse_content(TOKEN &tok, CONFIG &dc, CONTEXT &me); bool parse_content(TOKEN &tok, CONFIG &dc, CONTEXT &me) { char *setting = tok.next(); if (setting == token_on) { me.set_content_filtering(true); } else if (setting == token_off) { me.set_content_filtering(false); } else { tok.token_error("on/off", setting); return false; } if (!tsa(tok, token_lbrace)) return false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_filter) { char *suffix = tok.next(); char *messag = tok.next(); me.set_content_suffix(suffix); me.set_content_message(messag); if (!tsa(tok, token_semi)) return false; } else if (have == token_ignore) { if (!tsa(tok, token_lbrace)) return false; while (true) { if (!have) break; char *have = tok.next(); if (have == token_rbrace) break; // done me.add_ignore(have); } if (!tsa(tok, token_semi)) return false; } else if (have == token_tld) { if (!tsa(tok, token_lbrace)) return false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) break; // done me.add_tld(have); } if (!tsa(tok, token_semi)) return false; } else if (have == token_html_limit) { have = tok.next(); if (have == token_on) { me.set_tag_limit(tok.nextint()); me.set_tag_message(tok.next()); } else if (have == token_off) { me.set_tag_limit(0); me.set_tag_message(NULL); } else { tok.token_error("on/off", have); return false; } if (!tsa(tok, token_semi)) return false; } else if (have == token_html_tags) { if (!tsa(tok, token_lbrace)) return false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) { break; // done } else { me.add_tag(have); // base version char buf[200]; snprintf(buf, sizeof(buf), "/%s", have); me.add_tag(register_string(buf)); // leading / snprintf(buf, sizeof(buf), "%s/", have); me.add_tag(register_string(buf)); // trailing / } } if (!tsa(tok, token_semi)) return false; } else if (have == token_host_limit) { have = tok.next(); if (have == token_on) { me.set_host_limit(tok.nextint()); me.set_host_message(tok.next()); me.set_host_random(false); } else if (have == token_off) { me.set_host_limit(0); me.set_host_message(NULL); me.set_host_random(false); } else if (have == token_soft) { me.set_host_limit(tok.nextint()); me.set_host_message(NULL); me.set_host_random(true); } else { tok.token_error("on/off/soft", have); return false; } if (!tsa(tok, token_semi)) return false; } else if (have == token_rbrace) { break; // done } else { tok.token_error("content keyword", have); return false; } } return tsa(tok, token_semi); } //////////////////////////////////////////////// // bool parse_envto(TOKEN &tok, CONFIG &dc, CONTEXT &me); bool parse_envto(TOKEN &tok, CONFIG &dc, CONTEXT &me) { if (!tsa(tok, token_lbrace)) return false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) break; if (have == token_semi) { // optional separators } else if (have == token_dccto) { char *flavor = tok.next(); if (!tsa(tok, token_lbrace)) return false; bool keeping = false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) break; if (have == flavor) { keeping = true; continue; } else if ((have == token_ok) || (have == token_ok2) || (have == token_many)) { keeping = false; continue; } if (have == token_envto) { have = tok.next(); if (keeping) { if (me.allow_env_to(have)) { me.add_to(have); dc.add_to(have, &me); } } } //else if (have == token_substitute) { // if (tok.next() == token_mailhost) { // have = tok.next(); // if (keeping) { // if (me.allow_env_to(have)) { // me.add_to(have); // dc.add_to(have, &me); // } // } // } //} tok.skipeol(); } } else if (me.allow_env_to(have)) { me.add_to(have); dc.add_to(have, &me); } else { tok.token_error("user@ or user@domain.tld or domain.tld where domain.tld allowed by parent context", have); return false; } } return tsa(tok, token_semi); } //////////////////////////////////////////////// // bool parse_verify(TOKEN &tok, CONFIG &dc, CONTEXT &me); bool parse_verify(TOKEN &tok, CONFIG &dc, CONTEXT &me) { char *host = tok.next(); if (!tsa(tok, token_semi)) return false; me.set_verify(host); add_verify_host(host); return true; } //////////////////////////////////////////////// // bool parse_envfrom(TOKEN &tok, CONFIG &dc, CONTEXT &me); bool parse_envfrom(TOKEN &tok, CONFIG &dc, CONTEXT &me) { char *st = tok.next(); if ((st == token_black) || (st == token_white) || (st == token_unknown) || (st == token_inherit)) { me.set_from_default(st); } else { tok.push(st); } if (!tsa(tok, token_lbrace)) return false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) break; if (have == token_semi) { // optional separators } else if (have == token_dccfrom) { if (!tsa(tok, token_lbrace)) return false; bool keeping = false; bool many = false; while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) break; if (have == token_ok) { keeping = true; many = false; continue; } else if (have == token_many) { keeping = true; many = true; continue; } else if (have == token_ok2) { keeping = false; continue; } if (have == token_envfrom) { have = tok.next(); if (keeping) { me.add_from(have, (many) ? token_black : token_white); } } else if (have == token_substitute) { if (tok.next() == token_mailhost) { have = tok.next(); me.add_from(have, (many) ? token_black : token_white); } } tok.skipeol(); } } else { // may be a valid email address or domain name char *st = tok.next(); if ((st == token_black) || (st == token_white) || (st == token_unknown)) { me.add_from(have, st); } else { CONTEXTP con = me.find_from_context_name(st); if (con) { me.add_from_context(have, con); } else { tok.token_error("white/black/unknown or child context name", st); return false; } } } } return tsa(tok, token_semi); } //////////////////////////////////////////////// // bool parse_context(TOKEN &tok, CONFIG &dc, CONTEXTP parent); bool parse_context(TOKEN &tok, CONFIG &dc, CONTEXTP parent) { char *name = tok.next(); if (!tsa(tok, token_lbrace)) return false; CONTEXTP con = new CONTEXT(parent, name); while (true) { char *have = tok.next(); if (!have) break; if (have == token_rbrace) break; // done if (have == token_dnsbl) { if (!parse_dnsbl(tok, dc, *con)) return false; } else if (have == token_dnsbll) { if (!parse_dnsbll(tok, dc, *con)) return false; } else if (have == token_content) { if (!parse_content(tok, dc, *con)) return false; } else if (have == token_envto) { if (!parse_envto(tok, dc, *con)) return false; } else if (have == token_verify) { if (!parse_verify(tok, dc, *con)) return false; } else if (have == token_envfrom) { if (!parse_envfrom(tok, dc, *con)) return false; } else if (have == token_context) { if (!parse_context(tok, dc, con)) return false; } else { tok.token_error("context keyword", have); return false; } } if (!tsa(tok, token_semi)) { delete con; return false; } dc.add_context(con); if (parent) parent->add_context(con); return true; } //////////////////////////////////////////////// // parse a config file // bool load_conf(CONFIG &dc, char *fn) { int count = 0; TOKEN tok(fn, &dc.config_files); while (true) { char *have = tok.next(); if (!have) break; if (have == token_context) { if (!parse_context(tok, dc, NULL)) { tok.token_error("load_conf() failed to parse context"); return false; } else count++; } else { tok.token_error(token_context, have); return false; } } tok.token_error("load_conf() found %d contexts in %s", count, fn); return (dc.default_context) ? true : false; } //////////////////////////////////////////////// // setup a new smtp verify host // void add_verify_host(char *host) { verify_map::iterator i = verifiers.find(host); if (i == verifiers.end()) { VERIFYP v = new VERIFY(host); verifiers[host] = v; } } //////////////////////////////////////////////// // thread to check for verify hosts with old sockets that we can close // void* verify_closer(void *arg) { while (true) { sleep(maxage); for (verify_map::iterator i=verifiers.begin(); i!=verifiers.end(); i++) { VERIFYP v = (*i).second; v->closer(); } } return NULL; } //////////////////////////////////////////////// // init the tokens // void token_init() { token_black = register_string("black"); token_content = register_string("content"); token_context = register_string("context"); token_dccfrom = register_string("dcc_from"); token_dccto = register_string("dcc_to"); token_default = register_string("default"); token_dnsbl = register_string("dnsbl"); token_dnsbll = register_string("dnsbl_list"); token_envfrom = register_string("env_from"); token_envto = register_string("env_to"); token_filter = register_string("filter"); token_host_limit = register_string("host_limit"); token_html_limit = register_string("html_limit"); token_html_tags = register_string("html_tags"); token_ignore = register_string("ignore"); token_include = register_string("include"); token_inherit = register_string("inherit"); token_lbrace = register_string("{"); token_mailhost = register_string("mail_host"); token_many = register_string("many"); token_off = register_string("off"); token_ok = register_string("ok"); token_ok2 = register_string("ok2"); token_on = register_string("on"); token_rbrace = register_string("}"); token_semi = register_string(";"); token_soft = register_string("soft"); token_substitute = register_string("substitute"); token_tld = register_string("tld"); token_unknown = register_string("unknown"); token_verify = register_string("verify"); token_white = register_string("white"); if (gethostname(myhostname, HOST_NAME_MAX+1) != 0) { strncpy(myhostname, "localhost", HOST_NAME_MAX+1); } myhostname[HOST_NAME_MAX] = '\0'; // ensure null termination token_myhostname = register_string(myhostname); }