#ifndef lint
static char rcsid[] = "@(#$Id: mh_mail.cpp,v 1.35 2008-10-04 14:26:59 dockes Exp $ (C) 2005 J.F.Dockes";
#endif
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the
* Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <stdio.h>
#include <fcntl.h>
#include <errno.h>
#include <unistd.h>
#include <time.h>
#include <cstdlib>
#include <map>
#include <sstream>
#include "mimehandler.h"
#include "readfile.h"
#include "transcode.h"
#include "mimeparse.h"
#include "mh_mail.h"
#include "debuglog.h"
#include "smallut.h"
#include "mh_html.h"
#include "rclconfig.h"
#include "mimetype.h"
#include "md5.h"
// binc imap mime definitions
#include "mime.h"
using namespace std;
static const int maxdepth = 20;
static const string cstr_mimetype = "mimetype";
static const string cstr_content = "content";
static const string cstr_author = "author";
static const string cstr_recipient = "recipient";
static const string cstr_modificationdate = "modificationdate";
static const string cstr_title = "title";
static const string cstr_msgid = "msgid";
static const string cstr_abstract = "abstract";
MimeHandlerMail::MimeHandlerMail(const string &mt)
: RecollFilter(mt), m_bincdoc(0), m_fd(-1), m_stream(0), m_idx(-1)
{
// Look for additional headers to be processed as per config:
list<string> hdrnames =
RclConfig::getMainConfig()->getFieldSectNames("mail");
if (hdrnames.empty())
return;
for (list<string>::const_iterator it = hdrnames.begin();
it != hdrnames.end(); it++) {
(void)RclConfig::getMainConfig()->
getFieldConfParam(*it, "mail", m_addProcdHdrs[*it]);
}
}
MimeHandlerMail::~MimeHandlerMail()
{
clear();
}
void MimeHandlerMail::clear()
{
delete m_bincdoc; m_bincdoc = 0;
if (m_fd >= 0) {
close(m_fd);
m_fd = -1;
}
delete m_stream; m_stream = 0;
m_idx = -1;
m_subject.erase();
for (vector<MHMailAttach*>::iterator it = m_attachments.begin();
it != m_attachments.end(); it++) {
delete *it;
}
m_attachments.clear();
RecollFilter::clear();
}
bool MimeHandlerMail::set_document_file(const string &fn)
{
LOGDEB(("MimeHandlerMail::set_document_file(%s)\n", fn.c_str()));
RecollFilter::set_document_file(fn);
if (m_fd >= 0) {
close(m_fd);
m_fd = -1;
}
// Yes, we read the file twice. It would be possible in theory to add
// the md5 computation to the mime analysis, but ...
string md5, xmd5, reason;
if (MD5File(fn, md5, &reason)) {
m_metaData["md5"] = MD5HexPrint(md5, xmd5);
} else {
LOGERR(("MimeHandlerMail: cant compute md5 for [%s]: %s\n", fn.c_str(),
reason.c_str()));
}
m_fd = open(fn.c_str(), 0);
if (m_fd < 0) {
LOGERR(("MimeHandlerMail::set_document_file: open(%s) errno %d\n",
fn.c_str(), errno));
return false;
}
delete m_bincdoc;
m_bincdoc = new Binc::MimeDocument;
m_bincdoc->parseFull(m_fd);
if (!m_bincdoc->isHeaderParsed() && !m_bincdoc->isAllParsed()) {
LOGERR(("MimeHandlerMail::mkDoc: mime parse error for %s\n",
fn.c_str()));
return false;
}
m_havedoc = true;
return true;
}
bool MimeHandlerMail::set_document_string(const string &msgtxt)
{
LOGDEB1(("MimeHandlerMail::set_document_string\n"));
LOGDEB2(("Message text: [%s]\n", msgtxt.c_str()));
delete m_stream;
string md5, xmd5;
MD5String(msgtxt, md5);
m_metaData["md5"] = MD5HexPrint(md5, xmd5);
m_stream = new stringstream(msgtxt);
delete m_bincdoc;
m_bincdoc = new Binc::MimeDocument;
m_bincdoc->parseFull(*m_stream);
if (!m_bincdoc->isHeaderParsed() && !m_bincdoc->isAllParsed()) {
LOGERR(("MimeHandlerMail::set_document_string: mime parse error\n"));
return false;
}
m_havedoc = true;
return true;
}
bool MimeHandlerMail::skip_to_document(const string& ipath)
{
LOGDEB(("MimeHandlerMail::skip_to_document(%s)\n", ipath.c_str()));
if (m_idx == -1) {
// No decoding done yet. If ipath is null need do nothing
if (ipath.empty() || ipath == "-1")
return true;
// ipath points to attachment: need to decode message
if (!next_document()) {
LOGERR(("MimeHandlerMail::skip_to_doc: next_document failed\n"));
return false;
}
}
m_idx = atoi(ipath.c_str());
return true;
}
bool MimeHandlerMail::next_document()
{
LOGDEB(("MimeHandlerMail::next_document m_idx %d m_havedoc %d\n",
m_idx, m_havedoc));
if (!m_havedoc)
return false;
bool res = false;
if (m_idx == -1) {
m_metaData[cstr_mimetype] = "text/plain";
res = processMsg(m_bincdoc, 0);
LOGDEB1(("MimeHandlerMail::next_document: mimetype %s\n",
m_metaData[cstr_mimetype].c_str()));
const string& txt = m_metaData[cstr_content];
if (m_startoftext < txt.size())
m_metaData[cstr_abstract] =
truncate_to_word(txt.substr(m_startoftext), 250);
} else {
m_metaData[cstr_abstract] = "";
res = processAttach();
}
m_idx++;
m_havedoc = m_idx < (int)m_attachments.size();
if (!m_havedoc) {
m_reason = "Subdocument index too high";
}
return res;
}
// Decode according to content transfer encoding. May actually do nothing,
// which will be indicated by the *respp argument pointing to the original
// text on exit
static bool decodeBody(const string& cte, // Content transfer encoding
const string& body, // Source text
string& decoded, // Decoded text if actual decoding
const string** respp // Decoding Indicator
)
{
// By default, there is no encoding (7bit,8bit,raw). Also in case of
// decoding error
*respp = &body;
if (!stringlowercmp("quoted-printable", cte)) {
if (!qp_decode(body, decoded)) {
LOGERR(("decodeBody: quoted-printable decoding failed !\n"));
LOGDEB((" Body: \n%s\n", body.c_str()));
return false;
}
*respp = &decoded;
} else if (!stringlowercmp("base64", cte)) {
if (!base64_decode(body, decoded)) {
// base64 encoding errors are actually relatively common
LOGERR(("decodeBody: base64 decoding failed !\n"));
LOGDEB((" Body: \n%s\n", body.c_str()));
return false;
}
*respp = &decoded;
}
return true;
}
bool MimeHandlerMail::processAttach()
{
LOGDEB(("MimeHandlerMail::processAttach() m_idx %d\n", m_idx));
if (!m_havedoc)
return false;
if (m_idx >= (int)m_attachments.size()) {
m_havedoc = false;
return false;
}
MHMailAttach *att = m_attachments[m_idx];
m_metaData[cstr_mimetype] = att->m_contentType;
m_metaData["charset"] = att->m_charset;
m_metaData["filename"] = att->m_filename;
// Change the title to something helpul
m_metaData[cstr_title] = att->m_filename + " (" + m_subject + ")";
LOGDEB1((" processAttach:ct [%s] cs [%s] fn [%s]\n",
att->m_contentType.c_str(),
att->m_charset.c_str(),
att->m_filename.c_str()));
m_metaData[cstr_content] = string();
string& body = m_metaData[cstr_content];
att->m_part->getBody(body, 0, att->m_part->bodylength);
string decoded;
const string *bdp;
if (!decodeBody(att->m_contentTransferEncoding, body, decoded, &bdp)) {
return false;
}
if (bdp != &body)
body = decoded;
// Special case for text/plain content. Internfile should deal
// with this but it expects text/plain to be utf-8 already, so we
// handle the transcoding if needed
if (m_metaData[cstr_mimetype] == "text/plain" &&
stringicmp(m_metaData["charset"], "UTF-8")) {
string utf8;
if (!transcode(body, utf8, m_metaData["charset"], "UTF-8")) {
LOGERR((" processAttach: transcode to utf-8 failed "
"for charset [%s]\n", m_metaData["charset"].c_str()));
// Just let it through and hope for the best...
} else {
body = utf8;
}
}
// Special case for application/octet-stream: try to better
// identify content, using file name if set
if (m_metaData[cstr_mimetype] == "application/octet-stream" &&
!m_metaData["filename"].empty()) {
string mt = mimetype(m_metaData["filename"], 0,
RclConfig::getMainConfig(), false);
if (!mt.empty())
m_metaData[cstr_mimetype] = mt;
}
// Ipath
char nbuf[20];
sprintf(nbuf, "%d", m_idx);
m_metaData["ipath"] = nbuf;
return true;
}
// Transform a single message into a document. The subject becomes the
// title, and any simple body part with a content-type of text or html
// and content-disposition inline gets concatenated as text.
//
// If depth is not zero, we're called recursively for an
// message/rfc822 part and we must not touch the doc fields except the
// text
bool MimeHandlerMail::processMsg(Binc::MimePart *doc, int depth)
{
LOGDEB2(("MimeHandlerMail::processMsg: depth %d\n", depth));
if (depth++ >= maxdepth) {
// Have to stop somewhere
LOGINFO(("MimeHandlerMail::processMsg: maxdepth %d exceeded\n",
maxdepth));
// Return true anyway, better to index partially than not at all
return true;
}
// Handle some headers.
string& text = m_metaData[cstr_content];
Binc::HeaderItem hi;
string transcoded;
if (doc->h.getFirstHeader("From", hi)) {
rfc2047_decode(hi.getValue(), transcoded);
text += string("From: ") + transcoded + string("\n");
if (depth == 1) {
m_metaData[cstr_author] = transcoded;
}
}
if (doc->h.getFirstHeader("To", hi)) {
rfc2047_decode(hi.getValue(), transcoded);
text += string("To: ") + transcoded + string("\n");
if (depth == 1) {
m_metaData[cstr_recipient] = transcoded;
}
}
if (doc->h.getFirstHeader("Cc", hi)) {
rfc2047_decode(hi.getValue(), transcoded);
text += string("Cc: ") + transcoded + string("\n");
if (depth == 1) {
m_metaData[cstr_recipient] += " " + transcoded;
}
}
if (doc->h.getFirstHeader("Message-Id", hi)) {
if (depth == 1) {
m_metaData[cstr_msgid] = hi.getValue();
trimstring(m_metaData[cstr_msgid], "<>");
}
}
if (doc->h.getFirstHeader("Date", hi)) {
rfc2047_decode(hi.getValue(), transcoded);
if (depth == 1) {
time_t t = rfc2822DateToUxTime(transcoded);
if (t != (time_t)-1) {
char ascuxtime[100];
sprintf(ascuxtime, "%ld", (long)t);
m_metaData[cstr_modificationdate] = ascuxtime;
} else {
// Leave mtime field alone, ftime will be used instead.
LOGDEB(("rfc2822Date...: failed: [%s]\n", transcoded.c_str()));
}
}
text += string("Date: ") + transcoded + string("\n");
}
if (doc->h.getFirstHeader("Subject", hi)) {
rfc2047_decode(hi.getValue(), transcoded);
if (depth == 1) {
m_metaData[cstr_title] = transcoded;
m_subject = transcoded;
}
text += string("Subject: ") + transcoded + string("\n");
}
// Check for the presence of configured additional headers and possibly
// add them to the metadata (with appropriate field name).
if (!m_addProcdHdrs.empty()) {
for (map<string, string>::const_iterator it = m_addProcdHdrs.begin();
it != m_addProcdHdrs.end(); it++) {
if (!it->second.empty()) {
string hval;
if (doc->h.getFirstHeader(it->first, hi)) {
m_metaData[it->second] = hi.getValue();
}
}
}
}
text += '\n';
m_startoftext = text.size();
LOGDEB2(("MimeHandlerMail::processMsg:ismultipart %d mime subtype '%s'\n",
doc->isMultipart(), doc->getSubType().c_str()));
walkmime(doc, depth);
LOGDEB2(("MimeHandlerMail::processMsg:text:[%s]\n",
m_metaData[cstr_content].c_str()));
return true;
}
// Recursively walk the message mime parts and concatenate all the
// inline html or text that we find anywhere.
//
// RFC2046 reminder:
// Top level media types:
// Simple: text, image, audio, video, application,
// Composite: multipart, message.
//
// multipart can be mixed, signed, alternative, parallel, digest.
// message/rfc822 may also be of interest.
void MimeHandlerMail::walkmime(Binc::MimePart* doc, int depth)
{
LOGDEB2(("MimeHandlerMail::walkmime: depth %d\n", depth));
if (depth++ >= maxdepth) {
LOGINFO(("walkmime: max depth (%d) exceeded\n", maxdepth));
return;
}
string& out = m_metaData[cstr_content];
if (doc->isMultipart()) {
LOGDEB2(("walkmime: ismultipart %d subtype '%s'\n",
doc->isMultipart(), doc->getSubType().c_str()));
// We only handle alternative, related and mixed (no digests).
std::vector<Binc::MimePart>::iterator it;
if (!stringicmp("mixed", doc->getSubType()) ||
!stringicmp("signed", doc->getSubType()) ||
!stringicmp("related", doc->getSubType())) {
// Multipart mixed and related: process each part.
for (it = doc->members.begin(); it != doc->members.end();it++) {
walkmime(&(*it), depth);
}
} else if (!stringicmp("alternative", doc->getSubType())) {
// Multipart/alternative: look for a text/plain part, then html.
// Process if found
std::vector<Binc::MimePart>::iterator ittxt, ithtml;
ittxt = ithtml = doc->members.end();
int i = 1;
for (it = doc->members.begin();
it != doc->members.end(); it++, i++) {
// Get and parse content-type header
Binc::HeaderItem hi;
if (!it->h.getFirstHeader("Content-Type", hi)) {
LOGDEB(("walkmime:no ctent-type header for part %d\n", i));
continue;
}
MimeHeaderValue content_type;
parseMimeHeaderValue(hi.getValue(), content_type);
LOGDEB2(("walkmime: C-type: %s\n",content_type.value.c_str()));
if (!stringlowercmp("text/plain", content_type.value))
ittxt = it;
else if (!stringlowercmp("text/html", content_type.value))
ithtml = it;
}
if (ittxt != doc->members.end()) {
LOGDEB2(("walkmime: alternative: chose text/plain part\n"))
walkmime(&(*ittxt), depth);
} else if (ithtml != doc->members.end()) {
LOGDEB2(("walkmime: alternative: chose text/html part\n"))
walkmime(&(*ithtml), depth);
}
}
return;
}
// Part is not multipart: it must be either simple or message. Take
// a look at interesting headers and a possible filename parameter
// Get and parse content-type header.
Binc::HeaderItem hi;
string ctt = "text/plain";
if (doc->h.getFirstHeader("Content-Type", hi)) {
ctt = hi.getValue();
}
LOGDEB2(("walkmime:content-type: %s\n", ctt.c_str()));
MimeHeaderValue content_type;
parseMimeHeaderValue(ctt, content_type);
// Get and parse Content-Disposition header
string ctd = "inline";
if (doc->h.getFirstHeader("Content-Disposition", hi)) {
ctd = hi.getValue();
}
MimeHeaderValue content_disposition;
parseMimeHeaderValue(ctd, content_disposition);
LOGDEB2(("Content_disposition:[%s]\n", content_disposition.value.c_str()));
string dispindic;
if (stringlowercmp("inline", content_disposition.value))
dispindic = "Attachment";
else
dispindic = "Inline";
// See if we have a filename.
string filename;
map<string,string>::const_iterator it;
it = content_disposition.params.find(string("filename"));
if (it != content_disposition.params.end())
filename = it->second;
if (doc->isMessageRFC822()) {
LOGDEB2(("walkmime: message/RFC822 part\n"));
// The first part is the already parsed message. Call
// processMsg instead of walkmime so that mail headers get
// printed. The depth will tell it what to do
if (doc->members.empty()) {
//??
return;
}
out += "\n";
if (m_forPreview)
out += "[" + dispindic + " " + content_type.value + ": ";
out += filename;
if (m_forPreview)
out += "]";
out += "\n\n";
processMsg(&doc->members[0], depth);
return;
}
// "Simple" part.
LOGDEB2(("walkmime: simple part\n"));
// Normally the default charset is us-ascii. But it happens that
// 8 bit chars exist in a message that is stated as us-ascii. Ie the
// mailer used by yahoo support ('KANA') does this. We could convert
// to iso-8859 only if the transfer-encoding is 8 bit, or test for
// actual 8 bit chars, but what the heck, le'ts use 8859-1 as default
string charset;
it = content_type.params.find(string("charset"));
if (it != content_type.params.end())
charset = it->second;
if (charset.empty() ||
!stringlowercmp("us-ascii", charset) ||
!stringlowercmp("default", charset) ||
!stringlowercmp("x-user-defined", charset) ||
!stringlowercmp("x-unknown", charset) ||
!stringlowercmp("unknown", charset) ) {
RclConfig::getMainConfig()->getConfParam("maildefcharset", charset);
if (charset.empty())
charset = "iso-8859-1";
}
// Content transfer encoding
string cte = "7bit";
if (doc->h.getFirstHeader("Content-Transfer-Encoding", hi)) {
cte = hi.getValue();
}
// If the Content-Disposition is not inline, we treat it as
// attachment, as per rfc2183.
// If it is inline but not text or html, same thing.
if (stringlowercmp("inline", content_disposition.value) ||
(stringlowercmp("text/plain", content_type.value) &&
stringlowercmp("text/html", content_type.value)) ) {
if (!filename.empty()) {
out += "\n";
if (m_forPreview)
out += "[" + dispindic + " " + content_type.value + ": ";
out += filename;
if (m_forPreview)
out += "]";
out += "\n\n";
}
MHMailAttach *att = new MHMailAttach;
if (att == 0) {
LOGERR(("Out of memory\n"));
return;
}
att->m_contentType = content_type.value;
stringtolower(att->m_contentType);
att->m_filename = filename;
att->m_charset = charset;
att->m_contentTransferEncoding = cte;
att->m_part = doc;
LOGDEB(("walkmime: attachmnt: ct [%s] cte [%s] cs [%s] fn [%s]\n",
att->m_contentType.c_str(),
att->m_contentTransferEncoding.c_str(),
att->m_charset.c_str(),
filename.c_str()));
m_attachments.push_back(att);
return;
}
// We are dealing with an inline part of text/plain or text/html type
LOGDEB2(("walkmime: final: body start offset %d, length %d\n",
doc->getBodyStartOffset(), doc->getBodyLength()));
string body;
doc->getBody(body, 0, doc->bodylength);
string decoded;
const string *bdp;
if (!decodeBody(cte, body, decoded, &bdp)) {
LOGERR(("MimeHandlerMail::walkmime: failed decoding body\n"));
}
if (bdp != &body)
body = decoded;
// Handle html stripping and transcoding to utf8
string utf8;
const string *putf8 = 0;
if (!stringlowercmp("text/html", content_type.value)) {
MimeHandlerHtml mh("text/html");
mh.set_property(Dijon::Filter::OPERATING_MODE,
m_forPreview ? "view" : "index");
mh.set_property(Dijon::Filter::DEFAULT_CHARSET, charset);
mh.set_document_string(body);
mh.next_document();
map<string, string>::const_iterator it =
mh.get_meta_data().find(cstr_content);
if (it != mh.get_meta_data().end())
out += it->second;
} else {
// Transcode to utf-8
LOGDEB1(("walkmime: transcoding from %s to UTF-8\n", charset.c_str()));
if (!transcode(body, utf8, charset, "UTF-8")) {
LOGERR(("walkmime: transcode failed from cs '%s' to UTF-8\n",
charset.c_str()));
out += body;
} else {
out += utf8;
}
}
if (out.length() && out[out.length()-1] != '\n')
out += '\n';
LOGDEB2(("walkmime: out now: [%s]\n", out.c_str()));
}