/*
* Copyright © 2009 Carl Worth
*
* 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 3 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, see https://www.gnu.org/licenses/ .
*
* Author: Carl Worth <cworth@cworth.org>
*/
#include "notmuch-private.h"
#include <gmime/gmime.h>
#include <gmime/gmime-filter.h>
#include <xapian.h>
typedef struct {
int state;
int a;
int b;
int next_if_match;
int next_if_not_match;
} scanner_state_t;
/* Simple, linear state-transition diagram for the uuencode filter.
*
* If the character being processed is within the range of [a, b]
* for the current state then we transition next_if_match
* state. If not, we transition to the next_if_not_match state.
*
* The final two states are special in that they are the states in
* which we discard data. */
static const int first_uuencode_skipping_state = 11;
static const scanner_state_t uuencode_states[] = {
{0, 'b', 'b', 1, 0},
{1, 'e', 'e', 2, 0},
{2, 'g', 'g', 3, 0},
{3, 'i', 'i', 4, 0},
{4, 'n', 'n', 5, 0},
{5, ' ', ' ', 6, 0},
{6, '0', '7', 7, 0},
{7, '0', '7', 8, 0},
{8, '0', '7', 9, 0},
{9, ' ', ' ', 10, 0},
{10, '\n', '\n', 11, 10},
{11, 'M', 'M', 12, 0},
{12, ' ', '`', 12, 11}
};
/* The following table is intended to implement this DFA (in 'dot'
format). Note that 2 and 3 are "hidden" states used to step through
the possible out edges of state 1.
digraph html_filter {
0 -> 1 [label="<"];
0 -> 0;
1 -> 4 [label="'"];
1 -> 5 [label="\""];
1 -> 0 [label=">"];
1 -> 1;
4 -> 1 [label="'"];
4 -> 4;
5 -> 1 [label="\""];
5 -> 5;
}
*/
static const int first_html_skipping_state = 1;
static const scanner_state_t html_states[] = {
{0, '<', '<', 1, 0},
{1, '\'', '\'', 4, 2}, /* scanning for quote or > */
{1, '"', '"', 5, 3},
{1, '>', '>', 0, 1},
{4, '\'', '\'', 1, 4}, /* inside single quotes */
{5, '"', '"', 1, 5}, /* inside double quotes */
};
/* Oh, how I wish that gobject didn't require so much noisy boilerplate!
* (Though I have at least eliminated some of the stock set...) */
typedef struct _NotmuchFilterDiscardNonTerm NotmuchFilterDiscardNonTerm;
typedef struct _NotmuchFilterDiscardNonTermClass NotmuchFilterDiscardNonTermClass;
/**
* NotmuchFilterDiscardNonTerm:
*
* @parent_object: parent #GMimeFilter
* @encode: encoding vs decoding
* @state: State of the parser
*
* A filter to discard uuencoded portions of an email.
*
* A uuencoded portion is identified as beginning with a line
* matching:
*
* begin [0-7][0-7][0-7] .*
*
* After that detection, and beginning with the following line,
* characters will be discarded as long as the first character of each
* line begins with M and subsequent characters on the line are within
* the range of ASCII characters from ' ' to '`'.
*
* This is not a perfect UUencode filter. It's possible to have a
* message that will legitimately match that pattern, (so that some
* legitimate content is discarded). And for most UUencoded files, the
* final line of encoded data (the line not starting with M) will be
* indexed.
**/
struct _NotmuchFilterDiscardNonTerm {
GMimeFilter parent_object;
GMimeContentType *content_type;
int state;
int first_skipping_state;
const scanner_state_t *states;
};
struct _NotmuchFilterDiscardNonTermClass {
GMimeFilterClass parent_class;
};
static GMimeFilter *notmuch_filter_discard_non_term_new (GMimeContentType *content);
static void notmuch_filter_discard_non_term_finalize (GObject *object);
static GMimeFilter *filter_copy (GMimeFilter *filter);
static void filter_filter (GMimeFilter *filter, char *in, size_t len, size_t prespace,
char **out, size_t *outlen, size_t *outprespace);
static void filter_complete (GMimeFilter *filter, char *in, size_t len, size_t prespace,
char **out, size_t *outlen, size_t *outprespace);
static void filter_reset (GMimeFilter *filter);
static GMimeFilterClass *parent_class = NULL;
static void
notmuch_filter_discard_non_term_class_init (NotmuchFilterDiscardNonTermClass *klass,
unused (void *class_data))
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
GMimeFilterClass *filter_class = GMIME_FILTER_CLASS (klass);
parent_class = (GMimeFilterClass *) g_type_class_ref (GMIME_TYPE_FILTER);
object_class->finalize = notmuch_filter_discard_non_term_finalize;
filter_class->copy = filter_copy;
filter_class->filter = filter_filter;
filter_class->complete = filter_complete;
filter_class->reset = filter_reset;
}
static void
notmuch_filter_discard_non_term_finalize (GObject *object)
{
G_OBJECT_CLASS (parent_class)->finalize (object);
}
static GMimeFilter *
filter_copy (GMimeFilter *gmime_filter)
{
NotmuchFilterDiscardNonTerm *filter = (NotmuchFilterDiscardNonTerm *) gmime_filter;
return notmuch_filter_discard_non_term_new (filter->content_type);
}
static void
filter_filter (GMimeFilter *gmime_filter, char *inbuf, size_t inlen, size_t prespace,
char **outbuf, size_t *outlen, size_t *outprespace)
{
NotmuchFilterDiscardNonTerm *filter = (NotmuchFilterDiscardNonTerm *) gmime_filter;
const scanner_state_t *states = filter->states;
const char *inptr = inbuf;
const char *inend = inbuf + inlen;
char *outptr;
(void) prespace;
int next;
g_mime_filter_set_size (gmime_filter, inlen, false);
outptr = gmime_filter->outbuf;
next = filter->state;
while (inptr < inend) {
/* Each state is defined by a contiguous set of rows of the
* state table marked by a common value for '.state'. The
* state numbers must be equal to the index of the first row
* in a given state; thus the loop condition here looks for a
* jump to a first row of a state, which is a real transition
* in the underlying DFA.
*/
do {
if (*inptr >= states[next].a && *inptr <= states[next].b) {
next = states[next].next_if_match;
} else {
next = states[next].next_if_not_match;
}
} while (next != states[next].state);
if (filter->state < filter->first_skipping_state)
*outptr++ = *inptr;
filter->state = next;
inptr++;
}
*outlen = outptr - gmime_filter->outbuf;
*outprespace = gmime_filter->outpre;
*outbuf = gmime_filter->outbuf;
}
static void
filter_complete (GMimeFilter *filter, char *inbuf, size_t inlen, size_t prespace,
char **outbuf, size_t *outlen, size_t *outprespace)
{
if (inbuf && inlen)
filter_filter (filter, inbuf, inlen, prespace, outbuf, outlen, outprespace);
}
static void
filter_reset (GMimeFilter *gmime_filter)
{
NotmuchFilterDiscardNonTerm *filter = (NotmuchFilterDiscardNonTerm *) gmime_filter;
filter->state = 0;
}
/**
* notmuch_filter_discard_non_term_new:
*
* Returns: a new #NotmuchFilterDiscardNonTerm filter.
**/
static GMimeFilter *
notmuch_filter_discard_non_term_new (GMimeContentType *content_type)
{
static GType type = 0;
NotmuchFilterDiscardNonTerm *filter;
if (!type) {
static const GTypeInfo info = {
.class_size = sizeof (NotmuchFilterDiscardNonTermClass),
.base_init = NULL,
.base_finalize = NULL,
.class_init = (GClassInitFunc) notmuch_filter_discard_non_term_class_init,
.class_finalize = NULL,
.class_data = NULL,
.instance_size = sizeof (NotmuchFilterDiscardNonTerm),
.n_preallocs = 0,
.instance_init = NULL,
.value_table = NULL,
};
type = g_type_register_static (GMIME_TYPE_FILTER, "NotmuchFilterDiscardNonTerm", &info, (GTypeFlags) 0);
}
filter = (NotmuchFilterDiscardNonTerm *) g_object_new (type, NULL);
filter->content_type = content_type;
filter->state = 0;
if (g_mime_content_type_is_type (content_type, "text", "html")) {
filter->states = html_states;
filter->first_skipping_state = first_html_skipping_state;
} else {
filter->states = uuencode_states;
filter->first_skipping_state = first_uuencode_skipping_state;
}
return (GMimeFilter *) filter;
}
/* We're finally down to a single (NAME + address) email "mailbox". */
static void
_index_address_mailbox (notmuch_message_t *message,
const char *prefix_name,
InternetAddress *address)
{
InternetAddressMailbox *mailbox = INTERNET_ADDRESS_MAILBOX (address);
const char *name, *addr, *combined;
void *local = talloc_new (message);
name = internet_address_get_name (address);
addr = internet_address_mailbox_get_addr (mailbox);
/* Combine the name and address and index them as a phrase. */
if (name && addr)
combined = talloc_asprintf (local, "%s %s", name, addr);
else if (name)
combined = name;
else
combined = addr;
if (combined)
_notmuch_message_gen_terms (message, prefix_name, combined);
talloc_free (local);
}
static void
_index_address_list (notmuch_message_t *message,
const char *prefix_name,
InternetAddressList *addresses);
/* The outer loop over the InternetAddressList wasn't quite enough.
* There can actually be a tree here where a single member of the list
* is a "group" containing another list. Recurse please.
*/
static void
_index_address_group (notmuch_message_t *message,
const char *prefix_name,
InternetAddress *address)
{
InternetAddressGroup *group;
InternetAddressList *list;
group = INTERNET_ADDRESS_GROUP (address);
list = internet_address_group_get_members (group);
if (! list)
return;
_index_address_list (message, prefix_name, list);
}
static void
_index_address_list (notmuch_message_t *message,
const char *prefix_name,
InternetAddressList *addresses)
{
int i;
InternetAddress *address;
if (addresses == NULL)
return;
for (i = 0; i < internet_address_list_length (addresses); i++) {
address = internet_address_list_get_address (addresses, i);
if (INTERNET_ADDRESS_IS_MAILBOX (address)) {
_index_address_mailbox (message, prefix_name, address);
} else if (INTERNET_ADDRESS_IS_GROUP (address)) {
_index_address_group (message, prefix_name, address);
} else {
INTERNAL_ERROR ("GMime InternetAddress is neither a mailbox nor a group.\n");
}
}
}
static void
_index_content_type (notmuch_message_t *message, GMimeObject *part)
{
GMimeContentType *content_type = g_mime_object_get_content_type (part);
if (content_type) {
char *mime_string = g_mime_content_type_get_mime_type (content_type);
if (mime_string) {
_notmuch_message_gen_terms (message, "mimetype", mime_string);
g_free (mime_string);
}
}
}
static void
_index_encrypted_mime_part (notmuch_message_t *message, notmuch_indexopts_t *indexopts,
GMimeMultipartEncrypted *part);
/* Callback to generate terms for each mime part of a message. */
static void
_index_mime_part (notmuch_message_t *message,
notmuch_indexopts_t *indexopts,
GMimeObject *part)
{
GMimeStream *stream, *filter;
GMimeFilter *discard_non_term_filter;
GMimeDataWrapper *wrapper;
GByteArray *byte_array;
GMimeContentDisposition *disposition;
GMimeContentType *content_type;
char *body;
const char *charset;
if (! part) {
_notmuch_database_log (notmuch_message_get_database (message),
"Warning: Not indexing empty mime part.\n");
return;
}
_index_content_type (message, part);
if (GMIME_IS_MULTIPART (part)) {
GMimeMultipart *multipart = GMIME_MULTIPART (part);
int i;
if (GMIME_IS_MULTIPART_SIGNED (multipart))
_notmuch_message_add_term (message, "tag", "signed");
if (GMIME_IS_MULTIPART_ENCRYPTED (multipart))
_notmuch_message_add_term (message, "tag", "encrypted");
for (i = 0; i < g_mime_multipart_get_count (multipart); i++) {
if (GMIME_IS_MULTIPART_SIGNED (multipart)) {
/* Don't index the signature, but index its content type. */
if (i == GMIME_MULTIPART_SIGNED_SIGNATURE) {
_index_content_type (message,
g_mime_multipart_get_part (multipart, i));
continue;
} else if (i != GMIME_MULTIPART_SIGNED_CONTENT) {
_notmuch_database_log (notmuch_message_get_database (message),
"Warning: Unexpected extra parts of multipart/signed. Indexing anyway.\n");
}
}
if (GMIME_IS_MULTIPART_ENCRYPTED (multipart)) {
_index_content_type (message,
g_mime_multipart_get_part (multipart, i));
if (i == GMIME_MULTIPART_ENCRYPTED_CONTENT) {
_index_encrypted_mime_part(message, indexopts,
GMIME_MULTIPART_ENCRYPTED (part));
} else {
if (i != GMIME_MULTIPART_ENCRYPTED_VERSION) {
_notmuch_database_log (notmuch_message_get_database (message),
"Warning: Unexpected extra parts of multipart/encrypted.\n");
}
}
continue;
}
_index_mime_part (message, indexopts,
g_mime_multipart_get_part (multipart, i));
}
return;
}
if (GMIME_IS_MESSAGE_PART (part)) {
GMimeMessage *mime_message;
mime_message = g_mime_message_part_get_message (GMIME_MESSAGE_PART (part));
_index_mime_part (message, indexopts, g_mime_message_get_mime_part (mime_message));
return;
}
if (! (GMIME_IS_PART (part))) {
_notmuch_database_log (notmuch_message_get_database (message),
"Warning: Not indexing unknown mime part: %s.\n",
g_type_name (G_OBJECT_TYPE (part)));
return;
}
disposition = g_mime_object_get_content_disposition (part);
if (disposition &&
strcasecmp (g_mime_content_disposition_get_disposition (disposition),
GMIME_DISPOSITION_ATTACHMENT) == 0)
{
const char *filename = g_mime_part_get_filename (GMIME_PART (part));
_notmuch_message_add_term (message, "tag", "attachment");
_notmuch_message_gen_terms (message, "attachment", filename);
/* XXX: Would be nice to call out to something here to parse
* the attachment into text and then index that. */
return;
}
byte_array = g_byte_array_new ();
stream = g_mime_stream_mem_new_with_byte_array (byte_array);
g_mime_stream_mem_set_owner (GMIME_STREAM_MEM (stream), false);
filter = g_mime_stream_filter_new (stream);
content_type = g_mime_object_get_content_type (part);
discard_non_term_filter = notmuch_filter_discard_non_term_new (content_type);
g_mime_stream_filter_add (GMIME_STREAM_FILTER (filter),
discard_non_term_filter);
charset = g_mime_object_get_content_type_parameter (part, "charset");
if (charset) {
GMimeFilter *charset_filter;
charset_filter = g_mime_filter_charset_new (charset, "UTF-8");
/* This result can be NULL for things like "unknown-8bit".
* Don't set a NULL filter as that makes GMime print
* annoying assertion-failure messages on stderr. */
if (charset_filter) {
g_mime_stream_filter_add (GMIME_STREAM_FILTER (filter),
charset_filter);
g_object_unref (charset_filter);
}
}
wrapper = g_mime_part_get_content (GMIME_PART (part));
if (wrapper)
g_mime_data_wrapper_write_to_stream (wrapper, filter);
g_object_unref (stream);
g_object_unref (filter);
g_object_unref (discard_non_term_filter);
g_byte_array_append (byte_array, (guint8 *) "\0", 1);
body = (char *) g_byte_array_free (byte_array, false);
if (body) {
_notmuch_message_gen_terms (message, NULL, body);
free (body);
}
}
/* descend (if desired) into the cleartext part of an encrypted MIME
* part while indexing. */
static void
_index_encrypted_mime_part (notmuch_message_t *message,
notmuch_indexopts_t *indexopts,
GMimeMultipartEncrypted *encrypted_data)
{
notmuch_status_t status;
GError *err = NULL;
notmuch_database_t * notmuch = NULL;
GMimeObject *clear = NULL;
if (!indexopts || (notmuch_indexopts_get_decrypt_policy (indexopts) == NOTMUCH_DECRYPT_FALSE))
return;
notmuch = notmuch_message_get_database (message);
bool attempted = false;
GMimeDecryptResult *decrypt_result = NULL;
bool get_sk = (notmuch_indexopts_get_decrypt_policy (indexopts) == NOTMUCH_DECRYPT_TRUE);
clear = _notmuch_crypto_decrypt (&attempted, notmuch_indexopts_get_decrypt_policy (indexopts),
message, encrypted_data, get_sk ? &decrypt_result : NULL, &err);
if (!attempted)
return;
if (err || !clear) {
if (decrypt_result)
g_object_unref (decrypt_result);
if (err) {
_notmuch_database_log (notmuch, "Failed to decrypt during indexing. (%d:%d) [%s]\n",
err->domain, err->code, err->message);
g_error_free(err);
} else {
_notmuch_database_log (notmuch, "Failed to decrypt during indexing. (unknown error)\n");
}
/* Indicate that we failed to decrypt during indexing */
status = notmuch_message_add_property (message, "index.decryption", "failure");
if (status)
_notmuch_database_log_append (notmuch, "failed to add index.decryption "
"property (%d)\n", status);
return;
}
if (decrypt_result) {
if (get_sk) {
status = notmuch_message_add_property (message, "session-key",
g_mime_decrypt_result_get_session_key (decrypt_result));
if (status)
_notmuch_database_log (notmuch, "failed to add session-key "
"property (%d)\n", status);
}
g_object_unref (decrypt_result);
}
_index_mime_part (message, indexopts, clear);
g_object_unref (clear);
status = notmuch_message_add_property (message, "index.decryption", "success");
if (status)
_notmuch_database_log (notmuch, "failed to add index.decryption "
"property (%d)\n", status);
}
notmuch_status_t
_notmuch_message_index_file (notmuch_message_t *message,
notmuch_indexopts_t *indexopts,
notmuch_message_file_t *message_file)
{
GMimeMessage *mime_message;
InternetAddressList *addresses;
const char *subject;
notmuch_status_t status;
status = _notmuch_message_file_get_mime_message (message_file,
&mime_message);
if (status)
return status;
addresses = g_mime_message_get_from (mime_message);
if (addresses) {
_index_address_list (message, "from", addresses);
}
addresses = g_mime_message_get_all_recipients (mime_message);
if (addresses) {
_index_address_list (message, "to", addresses);
g_object_unref (addresses);
}
subject = g_mime_message_get_subject (mime_message);
_notmuch_message_gen_terms (message, "subject", subject);
_index_mime_part (message, indexopts, g_mime_message_get_mime_part (mime_message));
return NOTMUCH_STATUS_SUCCESS;
}