path: root/tools/libskrewt.c

#include "libskrewt.h"
#include "utils.h"
#include <sstream>
#include <signal.h>

using namespace std;

void parse_content(const string type_spec_line,
        string &maintype, string &boundary) {
  //xxx cerr << "parser called with: " << type_spec_line << endl;
  string get_type(type_spec_line);

  size_t where = get_type.find_first_of(" \t;\n");
  string rest;
  if (where == string::npos) {
    // keep whole string
  }
  else {
    rest = get_type.substr(where+1);
    get_type = get_type.substr(0,where);
  }
  where = get_type.find("/");
  if (where == string::npos){
    maintype = "";
    cerr << "could not find / in " << get_type << endl;
  } else {
    maintype = get_type.substr(0, where);
  }

// now need to find boundary

  string srch = "boundary=";
  where = rest.find(srch);
  if (where != string::npos) {
    where += srch.length();
    boundary = rest.substr(where);
    if (boundary[0] == '"') {
      boundary = boundary.substr(1);
      where = boundary.find_first_of("\"");
    } else {
      where = boundary.find_first_of(" \t;\n");
    }
    if (where == string::npos) {
      /* do nothing, boundary=boundary as a whole */
    } else {
      boundary = boundary.substr(0, where);
    }
  } else {
    //xxxxxxx cerr << "boundary= not found in " << type_spec_line << endl;
  }
}

int skrewt::krunch_rfrom(){
  stringstream parse;
  parse.str(received_from);
  string word;
  parse >> word;
  if (word != "from") {
    cerr << progid << " bad 'Received: from' line ... '"
        << word << "'" << endl;
    return ex_syserr;
  }
  parse >> proximta_rDNS;
  parse >> word;
  if (word == "(HELO" /*)*/) {
    parse >> proximta_HELO;
    proximta_HELO = rtrim(proximta_HELO, "()");
    parse >> word;
  } else {
    proximta_HELO = proximta_rDNS;
  }
  size_t len = word.length();
  if (len<2 || word[0] != '(' || word[len-1] != ')') {
    cerr << progid << " bad 'Received: from' line ;;; '"
        << word << "'" << endl;
    return ex_syserr;
  }
  proximta_IP = word.substr(1, len-2);
  size_t where = proximta_IP.find("@");
  if (where != string::npos){
    proximta_AuthUser = proximta_IP.substr(0, where);
    proximta_IP = proximta_IP.substr(1+where);
  }

  return 0;
}

int skrewt::headers(istream& xin){
  //xxxx cerr << progid << " begins" << endl;
  for (;;){             // outer loop over all records in the header
    if (xin.eof()) break;
    if (xin.bad()) return 1;

    string line;
// on fail, go back to top of outer loop and check for eof versus bad
    if (getline(xin, line).fail()) continue;
    msgsize += line.length()+1;
    if (msgsize > maxsize) {
      cerr << progid << " rejection: bigger than " << maxsize << endl;
      exeunt(ex_spam);
    }
    bigbuf.push_back(line);
    string headrec = noCR(line);       // for a folded record, this is the first line

    for (;;) {        // inner loop to build a multi-line record e.g. folded record:
      if (xin.eof()) break;
      if (xin.bad()) return 1;
      char ch;
      if (xin.get(ch).fail()) continue;
      xin.putback(ch);
      if (ch != ' ' && ch != '\t') break;
      string line;
// on fail, go back to top of inner loop and check for eof versus bad
      if (getline(xin, line).fail()) continue;
      msgsize += line.length()+1;
      if (msgsize > maxsize) {
        cerr << progid << " rejection: bigger than " << maxsize << endl;
        exeunt(ex_spam);
      }
      bigbuf.push_back(line);
      headrec += "\n" + noCR(line);
    }
// here with a fully assembled header record
// headrec (unlike line) contains no DOS CR characters
    int len = headrec.length();
    if (len == 0) {
      saw_blank_line = 1;
      break;            // no more headers in this message
    }

// here if it's a header line
    string headword;
    string rest;
    size_t where = headrec.find(":");
    if (where != string::npos) {
      headword = headrec.substr(0, where);
      rest = ltrim(headrec.substr(1+where));
    }
    headword = toLower(headword);
    if (0){
    } else if (headword == "from") {
      from = rest;
    } else if (headword == "to") {
      to = rest;
    } else if (headword == "return-path") {
      return_path = rest;
    } else if (headword == "message-id") {
      message_id = rest;
    } else if (headword == "received") {
      if (!received_from.length() && prefix("from ", rest)){
        received_from = rest;
      }
    } else if (headword == "date") {
      date = rest;
    } else if (headword == "subject") {
      subject = rest;
    } else if (headword == "content-type") {
      content_type = rest;
    } else if (headword == "delivered-to") {
      delivered_to = rest;
    }
    recno++;
    if (0) if (recno <= 6) cerr << progid << "#" << recno
        << " " << headrec << endl;
  }
  return 0;
}

int skrewt::dump_headers(std::ostream& xout){
  for (vector<string>::const_iterator foo = bigbuf.begin();
        foo != bigbuf.end(); foo++){
    xout << *foo << endl;
  }
  return 0;
}

int skrewt::interstage(){
  if (saw_blank_line) {/* ignore */}
// Note that the headers are in reverse-chronological order:
  cerr << progid <<" Return-path: " << return_path <<endl;

  { // parse the 'Received: from' line:
    cerr << "        Received: " << received_from <<endl;
    int rslt = krunch_rfrom();
    if (rslt) return rslt;
    cerr << "         rDNS:     " << proximta_rDNS << endl;
    cerr << "         HELO:     " << proximta_HELO << endl;
    cerr << "         IP:       "   << proximta_IP << endl;
    cerr << "         AuthUser: "   << proximta_AuthUser << endl;
    cerr << "         Mid       '"  << message_id << "'" << endl;
  }

  sepofra my_spf;
  try {
    my_spf.check(proximta_IP,
        proximta_HELO,
        return_path,
        "junk", 0/* verbosity */);
    cerr << "*** " << my_spf.explain() << endl;
  } catch (bad_thing foo) {
    cerr << "Caught bad thing: " << foo.what() << endl;
    return ex_syserr;
  }

// The logic here is:  In order:
// 1:: If whitelisted, accept.  No greylisting, no spam-checking.
// 2:: If blacklisted, reject.  No greylisting, no spam-checking.
// 3:: If good reputation, spam-check it and send it on its way.
// 4:: If no reputation, greylist.
// 5:: If bad reputation, ????

// Expanding item 3 to the next level of detail:
//  3a:: If some domain vouches for this sender-IP via SPF,
//   then the reputation is bound to the domain.
//  3c:: If some domain vouches for the message vie DKIM,
//   then the reputation is bound to the domain.
//  3d:: If no SPF or DKIM, then the reputation attaches
//   to the sender-IP.

// Expanding item 4 to the next level of detail:
//  4a:: If the greylisting database says this message is ripe
//   spam-check it.  If it's OK, use it to count toward reputation.
//  4b:: If it is previously unseen or too old, start greylisting
//   timer from scratch.  Reject with temporary error.
//  4c:: If it is in the "green" state, let the timer
//   continue from where it is.  Reject with temporary error.

// Note:  Reputation normally attaches to a domain.
//  With SPF, the domain vouches for the sender at a given IP address
//   ... and then the sender implicitly vouches for the message.
//  With DKIM, the domain vouches for an individual message.
//  With neither SPF nor DKIM, reputation attaches to the sender's
//    IP address.  The sender vouches for the message.
//
// During greylisting, delay applies to the message.  Reputation
//  applies to the domain (via SPF or DKIM) or to the server
//  (otherwise).


// If you are a medium-sized operator, such that you have one
// and only one IP address that ever sends email, and it is a
// static IP address, then you don't have much to gain from
// DKIM or SPF.  Attaching a reputation to your domain is not
// much different from attaching a reputation to your IP address.

// In constrast, if you are a low-budget operator with a
// dynamic IP address, you benefit from SPF and/or DKIM.
// Your reputation attaches to your domain, and remains
// stable even as your IP address changes.

// At the other extreme, if you are a big-time operator
// such as googlegroups.com, you benefit from DKIM and/or
// SPF.  Your IP addresses are not dynamic, but they are
// numerous, so you prefer to have your reputation apply
// to all your email-sending hosts.

#if 0   /* typical Received-SPF line */
 Received-SPF: pass (google.com: domain of rpendarvis@brenau.edu designates 74.125.245.70 as permitted sender) client-ip=74.125.245.70;
#endif

#if 0   /* SPF users */
 :; mail-scan +received-spf /home/jsd/Maildir/cur[/]*  |
    sed 's/.*domain of\(.*\).*designates.*/XXX \1 YYY/' |
    awk '/XXX/{print "<" $2 ">"}' | sort | uniq -c | sort -nr
     81 <gmail.com>
     17 <mac.com>
      8 <gmx.net>
      8 <bbruner@gmail.com>
      7 <jsd@av8n.com>
      6 <kst24@cam.ac.uk>
      5 <farooq.w@gmail.com>
      4 <scerri@chem.ucla.edu>
      4 <comcast.net>
      4 <c2i.net>
      3 <gemort2006@gmail.com>
      2 <rrhake@earthlink.net>
      2 <hotmail.com>
      2 <GCC.EDU>
      1 <us.panasonic.com>
      1 <sss.pgh.pa.us>
      1 <scot_wherland@wsu.edu>
      1 <rpendarvis@brenau.edu>
      1 <hmperks@gmail.com>
      1 <btv1==55494f7d7e0==matt.fisher@email.stvincent.edu>
      1 <arcor.de>
#endif

#if 0   /* DKIM users */
     52 d=googlegroups.com;
     27 d=barackobama.com;
     10 d=gmail.com;
      5 d=bronto.com;
      5 d=bluehornet.com;
      4 d=news.abebooks.com;
      2 d=yahoo.co.uk;
      2 d=sbcglobal.net;
      2 d=embarqmail.com;
      2 d=emailms.angieslist.com;
      1 d=newsletters.sourceforge.net;
      1 d=members.ebay.com;
      1 d=info.citibank.com;
      1 d=ebay.com;
      1 d=commail1.co.za;
#endif

  list<string> badnews;
  int whitelisted(0);

  if (subject.find("sesame") != string::npos
        && subject.find("swordfish") != string::npos) {
    whitelisted++;
  }

  if (delivered_to.length()){
    cerr << progid <<  " Delivered-to: <<<" << delivered_to << ">>>" << endl;
  }
  if (toLower(trim(delivered_to)) == "jean@av8n.com") {
    badnews.push_back("Looping Delivered-to: " + delivered_to);
  }

  if (subject.find("-please-bounce-this-") != string::npos) {
    badnews.push_back("by request");
  }

  if (!date.length()) {
    badnews.push_back("no date");
  }

  if (mid_required && !message_id.length()) {
    badnews.push_back("no message-id");
  }

  if (badnews.size() && !whitelisted){
    cerr << progid << " " << join(", ", badnews) << endl;
    if (error_exit){
      cerr << progid << " '" << from
             << "' to '" << to
             << "'" << endl;
      exeunt(ex_spam);
    }
  }
  return 0;
}

int skrewt::body(std::istream& xin, std::ostream& xout){
  string main_contype;
  if (content_type.length())
    parse_content(content_type, main_contype, boundary);
// some slightly-useful booleans:
  int currently_text = main_contype == "text";
  int main_multipart = main_contype == "multipart";

// early-stage thinking has been done.
// Now spew the rest of the message
// Note that multipart messages can have sub-headers.

  //xxxx cerr << "body begins: " << main_contype << " " << currently_text << " " << boundary << endl;
  int in_subheads(0);
  int textlines(0);

  for (;;){             // outer loop over all lines in the body
    if (xin.eof()) break;
    if (xin.bad()) return 1;
    string line;
// on fail, go back to top of outer loop and check for eof versus bad
    if (getline(xin, line).fail()) continue;
    msgsize += line.length()+1;
    if (msgsize > maxsize) {
      cerr << progid << " rejection: bigger than " << maxsize << endl;
      maybe_exeunt(ex_spam, error_exit);
    }
    bigbuf.push_back(line);
    xout << line << endl;
    if (in_subheads){
      if (line == "" || line == "\r") in_subheads = 0;
    }
    if (in_subheads){
        string sub_contype;
        string junk;
// in principle could worry about folded headers,
// but in this application it doesn't actually matter
        string headword;
        string rest;
        size_t where = line.find(":");
        if (where != string::npos) {
          headword = line.substr(0, where);
          rest = ltrim(line.substr(1+where));
        }
        headword = toLower(headword);
        if (headword == "content-type") {
          parse_content(rest, sub_contype, junk);
          currently_text = sub_contype == "text";
          //xxxx cerr << "setting contype '" << sub_contype << "' " << currently_text << " ... " << textlines << endl;
        }
    } else {
      if (main_multipart && line == "--" + boundary) {
        //xxxx cerr << "found subhead boundary" << endl;
        in_subheads = 1;
        continue;
      }
      if (currently_text) textlines++;
    }
  }

  if (0) cerr << "textlines: " << textlines << endl;
  if (!textlines) {
    cerr << progid << " rejection: no text: " << error_exit << endl;
    maybe_exeunt(ex_spam, error_exit);
  }
  cerr << progid << " normal completion" << endl;
  return(ex_good);
}

void maybe_exeunt(const int sts, const int really){
  if (!really) return;
  if (sts == ex_good) exit(sts);

  const char* foo = getenv("HI_Q_GROUP");
  if (!foo) exit(sts);

// No point in signalling ourself:
  sighandler_t rslt = signal(SIGUSR1, SIG_IGN);
  if (rslt == SIG_ERR) {
    cerr << "error setting signal" << endl;
  }
  int k = kill(-atoi(foo), SIGUSR1);
  if (k) {
    cerr << "kill failed on group " << atoi(foo) << " ... ";
    perror(0);
  }
  exit(sts);
}

void exeunt(const int sts){
  maybe_exeunt(sts, 1);
}