/* notmuch - Not much of an email program, (just index and search) * * Copyright © 2009 Carl Worth * Copyright © 2009 Keith Packard * * 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 http://www.gnu.org/licenses/ . * * Authors: Carl Worth * Keith Packard */ #include "notmuch-client.h" #include "string-util.h" #include "sprinter.h" static void show_reply_headers (GMimeMessage *message) { GMimeStream *stream_stdout = NULL; stream_stdout = g_mime_stream_file_new (stdout); if (stream_stdout) { g_mime_stream_file_set_owner (GMIME_STREAM_FILE (stream_stdout), FALSE); /* Output RFC 2822 formatted (and RFC 2047 encoded) headers. */ g_mime_object_write_to_stream (GMIME_OBJECT(message), stream_stdout); g_object_unref(stream_stdout); } } static void format_part_reply (mime_node_t *node) { int i; if (node->envelope_file) { printf ("On %s, %s wrote:\n", notmuch_message_get_header (node->envelope_file, "date"), notmuch_message_get_header (node->envelope_file, "from")); } else if (GMIME_IS_MESSAGE (node->part)) { GMimeMessage *message = GMIME_MESSAGE (node->part); InternetAddressList *recipients; const char *recipients_string; printf ("> From: %s\n", g_mime_message_get_sender (message)); recipients = g_mime_message_get_recipients (message, GMIME_RECIPIENT_TYPE_TO); recipients_string = internet_address_list_to_string (recipients, 0); if (recipients_string) printf ("> To: %s\n", recipients_string); recipients = g_mime_message_get_recipients (message, GMIME_RECIPIENT_TYPE_CC); recipients_string = internet_address_list_to_string (recipients, 0); if (recipients_string) printf ("> Cc: %s\n", recipients_string); printf ("> Subject: %s\n", g_mime_message_get_subject (message)); printf ("> Date: %s\n", g_mime_message_get_date_as_string (message)); printf (">\n"); } else if (GMIME_IS_PART (node->part)) { GMimeContentType *content_type = g_mime_object_get_content_type (node->part); GMimeContentDisposition *disposition = g_mime_object_get_content_disposition (node->part); if (g_mime_content_type_is_type (content_type, "application", "pgp-encrypted") || g_mime_content_type_is_type (content_type, "application", "pgp-signature")) { /* Ignore PGP/MIME cruft parts */ } else if (g_mime_content_type_is_type (content_type, "text", "*") && !g_mime_content_type_is_type (content_type, "text", "html")) { GMimeStream *stream_stdout = g_mime_stream_file_new (stdout); g_mime_stream_file_set_owner (GMIME_STREAM_FILE (stream_stdout), FALSE); show_text_part_content (node->part, stream_stdout, NOTMUCH_SHOW_TEXT_PART_REPLY); g_object_unref(stream_stdout); } else if (disposition && strcmp (disposition->disposition, GMIME_DISPOSITION_ATTACHMENT) == 0) { const char *filename = g_mime_part_get_filename (GMIME_PART (node->part)); printf ("Attachment: %s (%s)\n", filename, g_mime_content_type_to_string (content_type)); } else { printf ("Non-text part: %s\n", g_mime_content_type_to_string (content_type)); } } for (i = 0; i < node->nchildren; i++) format_part_reply (mime_node_child (node, i)); } typedef enum { USER_ADDRESS_IN_STRING, STRING_IN_USER_ADDRESS, STRING_IS_USER_ADDRESS, } address_match_t; /* Match given string against given address according to mode. */ static notmuch_bool_t match_address (const char *str, const char *address, address_match_t mode) { switch (mode) { case USER_ADDRESS_IN_STRING: return strcasestr (str, address) != NULL; case STRING_IN_USER_ADDRESS: return strcasestr (address, str) != NULL; case STRING_IS_USER_ADDRESS: return strcasecmp (address, str) == 0; } return FALSE; } /* Match given string against user's configured "primary" and "other" * addresses according to mode. */ static const char * address_match (const char *str, notmuch_config_t *config, address_match_t mode) { const char *primary; const char **other; size_t i, other_len; if (!str || *str == '\0') return NULL; primary = notmuch_config_get_user_primary_email (config); if (match_address (str, primary, mode)) return primary; other = notmuch_config_get_user_other_email (config, &other_len); for (i = 0; i < other_len; i++) { if (match_address (str, other[i], mode)) return other[i]; } return NULL; } /* Does the given string contain an address configured as one of the * user's "primary" or "other" addresses. If so, return the matching * address, NULL otherwise. */ static const char * user_address_in_string (const char *str, notmuch_config_t *config) { return address_match (str, config, USER_ADDRESS_IN_STRING); } /* Do any of the addresses configured as one of the user's "primary" * or "other" addresses contain the given string. If so, return the * matching address, NULL otherwise. */ static const char * string_in_user_address (const char *str, notmuch_config_t *config) { return address_match (str, config, STRING_IN_USER_ADDRESS); } /* Is the given address configured as one of the user's "primary" or * "other" addresses. */ static notmuch_bool_t address_is_users (const char *address, notmuch_config_t *config) { return address_match (address, config, STRING_IS_USER_ADDRESS) != NULL; } /* Scan addresses in 'list'. * * If 'message' is non-NULL, then for each address in 'list' that is * not configured as one of the user's addresses in 'config', add that * address to 'message' as an address of 'type'. * * If 'user_from' is non-NULL and *user_from is NULL, *user_from will * be set to the first address encountered in 'list' that is the * user's address. * * Return the number of addresses added to 'message'. (If 'message' is * NULL, the function returns 0 by definition.) */ static unsigned int scan_address_list (InternetAddressList *list, notmuch_config_t *config, GMimeMessage *message, GMimeRecipientType type, const char **user_from) { InternetAddress *address; int i; unsigned int n = 0; for (i = 0; i < internet_address_list_length (list); i++) { address = internet_address_list_get_address (list, i); if (INTERNET_ADDRESS_IS_GROUP (address)) { InternetAddressGroup *group; InternetAddressList *group_list; group = INTERNET_ADDRESS_GROUP (address); group_list = internet_address_group_get_members (group); if (group_list == NULL) continue; n += scan_address_list (group_list, config, message, type, user_from); } else { InternetAddressMailbox *mailbox; const char *name; const char *addr; mailbox = INTERNET_ADDRESS_MAILBOX (address); name = internet_address_get_name (address); addr = internet_address_mailbox_get_addr (mailbox); if (address_is_users (addr, config)) { if (user_from && *user_from == NULL) *user_from = addr; } else if (message) { g_mime_message_add_recipient (message, type, name, addr); n++; } } } return n; } /* Scan addresses in 'recipients'. * * See the documentation of scan_address_list() above. This function * does exactly the same, but converts 'recipients' to an * InternetAddressList first. */ static unsigned int scan_address_string (const char *recipients, notmuch_config_t *config, GMimeMessage *message, GMimeRecipientType type, const char **user_from) { InternetAddressList *list; if (recipients == NULL) return 0; list = internet_address_list_parse_string (recipients); if (list == NULL) return 0; return scan_address_list (list, config, message, type, user_from); } /* Does the address in the Reply-To header of 'message' already appear * in either the 'To' or 'Cc' header of the message? */ static int reply_to_header_is_redundant (notmuch_message_t *message) { const char *reply_to, *to, *cc, *addr; InternetAddressList *list; InternetAddress *address; InternetAddressMailbox *mailbox; reply_to = notmuch_message_get_header (message, "reply-to"); if (reply_to == NULL || *reply_to == '\0') return 0; list = internet_address_list_parse_string (reply_to); if (internet_address_list_length (list) != 1) return 0; address = internet_address_list_get_address (list, 0); if (INTERNET_ADDRESS_IS_GROUP (address)) return 0; mailbox = INTERNET_ADDRESS_MAILBOX (address); addr = internet_address_mailbox_get_addr (mailbox); to = notmuch_message_get_header (message, "to"); cc = notmuch_message_get_header (message, "cc"); if ((to && strstr (to, addr) != 0) || (cc && strstr (cc, addr) != 0)) { return 1; } return 0; } /* Augment the recipients of 'reply' from the "Reply-to:", "From:", * "To:", "Cc:", and "Bcc:" headers of 'message'. * * If 'reply_all' is true, use sender and all recipients, otherwise * scan the headers for the first that contains something other than * the user's addresses and add the recipients from this header * (typically this would be reply-to-sender, but also handles reply to * user's own message in a sensible way). * * If any of the user's addresses were found in these headers, the * first of these returned, otherwise NULL is returned. */ static const char * add_recipients_from_message (GMimeMessage *reply, notmuch_config_t *config, notmuch_message_t *message, notmuch_bool_t reply_all) { struct { const char *header; const char *fallback; GMimeRecipientType recipient_type; } reply_to_map[] = { { "reply-to", "from", GMIME_RECIPIENT_TYPE_TO }, { "to", NULL, GMIME_RECIPIENT_TYPE_TO }, { "cc", NULL, GMIME_RECIPIENT_TYPE_CC }, { "bcc", NULL, GMIME_RECIPIENT_TYPE_BCC } }; const char *from_addr = NULL; unsigned int i; unsigned int n = 0; /* Some mailing lists munge the Reply-To header despite it being A Bad * Thing, see http://www.unicom.com/pw/reply-to-harmful.html * * The munging is easy to detect, because it results in a * redundant reply-to header, (with an address that already exists * in either To or Cc). So in this case, we ignore the Reply-To * field and use the From header. This ensures the original sender * will get the reply even if not subscribed to the list. Note * that the address in the Reply-To header will always appear in * the reply. */ if (reply_to_header_is_redundant (message)) { reply_to_map[0].header = "from"; reply_to_map[0].fallback = NULL; } for (i = 0; i < ARRAY_SIZE (reply_to_map); i++) { const char *recipients; recipients = notmuch_message_get_header (message, reply_to_map[i].header); if ((recipients == NULL || recipients[0] == '\0') && reply_to_map[i].fallback) recipients = notmuch_message_get_header (message, reply_to_map[i].fallback); n += scan_address_string (recipients, config, reply, reply_to_map[i].recipient_type, &from_addr); if (!reply_all && n) { /* Stop adding new recipients in reply-to-sender mode if * we have added some recipient(s) above. * * This also handles the case of user replying to his own * message, where reply-to/from is not a recipient. In * this case there may be more than one recipient even if * not replying to all. */ reply = NULL; /* From address and some recipients are enough, bail out. */ if (from_addr) break; } } return from_addr; } /* * Look for the user's address in " for " in the * received headers. * * Return the address that was found, if any, and NULL otherwise. */ static const char * guess_from_in_received_for (notmuch_config_t *config, const char *received) { const char *ptr; ptr = strstr (received, " for "); if (! ptr) return NULL; return user_address_in_string (ptr, config); } /* * Parse all the " by MTA ..." parts in received headers to guess the * email address that this was originally delivered to. * * Extract just the MTA here by removing leading whitespace and * assuming that the MTA name ends at the next whitespace. Test for * *(by+4) to be non-'\0' to make sure there's something there at all * - and then assume that the first whitespace delimited token that * follows is the receiving system in this step of the receive chain. * * Return the address that was found, if any, and NULL otherwise. */ static const char * guess_from_in_received_by (notmuch_config_t *config, const char *received) { const char *addr; const char *by = received; char *domain, *tld, *mta, *ptr, *token; while ((by = strstr (by, " by ")) != NULL) { by += 4; if (*by == '\0') break; mta = xstrdup (by); token = strtok(mta," \t"); if (token == NULL) { free (mta); break; } /* * Now extract the last two components of the MTA host name as * domain and tld. */ domain = tld = NULL; while ((ptr = strsep (&token, ". \t")) != NULL) { if (*ptr == '\0') continue; domain = tld; tld = ptr; } if (domain) { /* * Recombine domain and tld and look for it among the * configured email addresses. This time we have a known * domain name and nothing else - so the test is the other * way around: we check if this is a substring of one of * the email addresses. */ *(tld - 1) = '.'; addr = string_in_user_address (domain, config); if (addr) { free (mta); return addr; } } free (mta); } return NULL; } /* * Get the concatenated Received: headers and search from the front * (last Received: header added) and try to extract from them * indications to which email address this message was delivered. * * The Received: header is special in our get_header function and is * always concatenated. * * Return the address that was found, if any, and NULL otherwise. */ static const char * guess_from_in_received_headers (notmuch_config_t *config, notmuch_message_t *message) { const char *received, *addr; char *sanitized; received = notmuch_message_get_header (message, "received"); if (! received) return NULL; sanitized = sanitize_string (NULL, received); if (! sanitized) return NULL; addr = guess_from_in_received_for (config, sanitized); if (! addr) addr = guess_from_in_received_by (config, sanitized); talloc_free (sanitized); return addr; } /* * Try to find user's email address in one of the extra To-like * headers: Envelope-To, X-Original-To, and Delivered-To (searched in * that order). * * Return the address that was found, if any, and NULL otherwise. */ static const char * get_from_in_to_headers (notmuch_config_t *config, notmuch_message_t *message) { size_t i; const char *tohdr, *addr; const char *to_headers[] = { "Envelope-to", "X-Original-To", "Delivered-To", }; for (i = 0; i < ARRAY_SIZE (to_headers); i++) { tohdr = notmuch_message_get_header (message, to_headers[i]); /* Note: tohdr potentially contains a list of email addresses. */ addr = user_address_in_string (tohdr, config); if (addr) return addr; } return NULL; } static GMimeMessage * create_reply_message(void *ctx, notmuch_config_t *config, notmuch_message_t *message, notmuch_bool_t reply_all) { const char *subject, *from_addr = NULL; const char *in_reply_to, *orig_references, *references; /* The 1 means we want headers in a "pretty" order. */ GMimeMessage *reply = g_mime_message_new (1); if (reply == NULL) { fprintf (stderr, "Out of memory\n"); return NULL; } subject = notmuch_message_get_header (message, "subject"); if (subject) { if (strncasecmp (subject, "Re:", 3)) subject = talloc_asprintf (ctx, "Re: %s", subject); g_mime_message_set_subject (reply, subject); } from_addr = add_recipients_from_message (reply, config, message, reply_all); /* * Sadly, there is no standard way to find out to which email * address a mail was delivered - what is in the headers depends * on the MTAs used along the way. * * If none of the user's email addresses are in the To: or Cc: * headers, we try a number of heuristics which hopefully will * answer this question. * * First, check for Envelope-To:, X-Original-To:, and * Delivered-To: headers. */ if (from_addr == NULL) from_addr = get_from_in_to_headers (config, message); /* * Check for a (for ) clause in Received: headers, * and the domain part of known email addresses in the 'by' part * of Received: headers */ if (from_addr == NULL) from_addr = guess_from_in_received_headers (config, message); /* Default to user's primary address. */ if (from_addr == NULL) from_addr = notmuch_config_get_user_primary_email (config); from_addr = talloc_asprintf (ctx, "%s <%s>", notmuch_config_get_user_name (config), from_addr); g_mime_object_set_header (GMIME_OBJECT (reply), "From", from_addr); in_reply_to = talloc_asprintf (ctx, "<%s>", notmuch_message_get_message_id (message)); g_mime_object_set_header (GMIME_OBJECT (reply), "In-Reply-To", in_reply_to); orig_references = notmuch_message_get_header (message, "references"); if (!orig_references) /* Treat errors like missing References headers. */ orig_references = ""; references = talloc_asprintf (ctx, "%s%s%s", *orig_references ? orig_references : "", *orig_references ? " " : "", in_reply_to); g_mime_object_set_header (GMIME_OBJECT (reply), "References", references); return reply; } static int notmuch_reply_format_default(void *ctx, notmuch_config_t *config, notmuch_query_t *query, notmuch_show_params_t *params, notmuch_bool_t reply_all, unused (sprinter_t *sp)) { GMimeMessage *reply; notmuch_messages_t *messages; notmuch_message_t *message; mime_node_t *root; for (messages = notmuch_query_search_messages (query); notmuch_messages_valid (messages); notmuch_messages_move_to_next (messages)) { message = notmuch_messages_get (messages); reply = create_reply_message (ctx, config, message, reply_all); /* If reply creation failed, we're out of memory, so don't * bother trying any more messages. */ if (!reply) { notmuch_message_destroy (message); return 1; } show_reply_headers (reply); g_object_unref (G_OBJECT (reply)); reply = NULL; if (mime_node_open (ctx, message, &(params->crypto), &root) == NOTMUCH_STATUS_SUCCESS) { format_part_reply (root); talloc_free (root); } notmuch_message_destroy (message); } return 0; } static int notmuch_reply_format_sprinter(void *ctx, notmuch_config_t *config, notmuch_query_t *query, notmuch_show_params_t *params, notmuch_bool_t reply_all, sprinter_t *sp) { GMimeMessage *reply; notmuch_messages_t *messages; notmuch_message_t *message; mime_node_t *node; if (notmuch_query_count_messages (query) != 1) { fprintf (stderr, "Error: search term did not match precisely one message.\n"); return 1; } messages = notmuch_query_search_messages (query); message = notmuch_messages_get (messages); if (mime_node_open (ctx, message, &(params->crypto), &node) != NOTMUCH_STATUS_SUCCESS) return 1; reply = create_reply_message (ctx, config, message, reply_all); if (!reply) return 1; sp->begin_map (sp); /* The headers of the reply message we've created */ sp->map_key (sp, "reply-headers"); format_headers_sprinter (sp, reply, TRUE); g_object_unref (G_OBJECT (reply)); reply = NULL; /* Start the original */ sp->map_key (sp, "original"); format_part_sprinter (ctx, sp, node, TRUE, TRUE, FALSE); /* End */ sp->end (sp); notmuch_message_destroy (message); return 0; } /* This format is currently tuned for a git send-email --notmuch hook */ static int notmuch_reply_format_headers_only(void *ctx, notmuch_config_t *config, notmuch_query_t *query, unused (notmuch_show_params_t *params), notmuch_bool_t reply_all, unused (sprinter_t *sp)) { GMimeMessage *reply; notmuch_messages_t *messages; notmuch_message_t *message; const char *in_reply_to, *orig_references, *references; char *reply_headers; for (messages = notmuch_query_search_messages (query); notmuch_messages_valid (messages); notmuch_messages_move_to_next (messages)) { message = notmuch_messages_get (messages); /* The 0 means we do not want headers in a "pretty" order. */ reply = g_mime_message_new (0); if (reply == NULL) { fprintf (stderr, "Out of memory\n"); return 1; } in_reply_to = talloc_asprintf (ctx, "<%s>", notmuch_message_get_message_id (message)); g_mime_object_set_header (GMIME_OBJECT (reply), "In-Reply-To", in_reply_to); orig_references = notmuch_message_get_header (message, "references"); /* We print In-Reply-To followed by References because git format-patch treats them * specially. Git does not interpret the other headers specially */ references = talloc_asprintf (ctx, "%s%s%s", orig_references ? orig_references : "", orig_references ? " " : "", in_reply_to); g_mime_object_set_header (GMIME_OBJECT (reply), "References", references); (void)add_recipients_from_message (reply, config, message, reply_all); reply_headers = g_mime_object_to_string (GMIME_OBJECT (reply)); printf ("%s", reply_headers); free (reply_headers); g_object_unref (G_OBJECT (reply)); reply = NULL; notmuch_message_destroy (message); } return 0; } enum { FORMAT_DEFAULT, FORMAT_JSON, FORMAT_SEXP, FORMAT_HEADERS_ONLY, }; int notmuch_reply_command (notmuch_config_t *config, int argc, char *argv[]) { notmuch_database_t *notmuch; notmuch_query_t *query; char *query_string; int opt_index; int (*reply_format_func) (void *ctx, notmuch_config_t *config, notmuch_query_t *query, notmuch_show_params_t *params, notmuch_bool_t reply_all, struct sprinter *sp); notmuch_show_params_t params = { .part = -1, .crypto = { .verify = FALSE, .decrypt = FALSE } }; int format = FORMAT_DEFAULT; int reply_all = TRUE; struct sprinter *sp = NULL; notmuch_opt_desc_t options[] = { { NOTMUCH_OPT_KEYWORD, &format, "format", 'f', (notmuch_keyword_t []){ { "default", FORMAT_DEFAULT }, { "json", FORMAT_JSON }, { "sexp", FORMAT_SEXP }, { "headers-only", FORMAT_HEADERS_ONLY }, { 0, 0 } } }, { NOTMUCH_OPT_INT, ¬much_format_version, "format-version", 0, 0 }, { NOTMUCH_OPT_KEYWORD, &reply_all, "reply-to", 'r', (notmuch_keyword_t []){ { "all", TRUE }, { "sender", FALSE }, { 0, 0 } } }, { NOTMUCH_OPT_BOOLEAN, ¶ms.crypto.decrypt, "decrypt", 'd', 0 }, { 0, 0, 0, 0, 0 } }; opt_index = parse_arguments (argc, argv, options, 1); if (opt_index < 0) return EXIT_FAILURE; if (format == FORMAT_HEADERS_ONLY) { reply_format_func = notmuch_reply_format_headers_only; } else if (format == FORMAT_JSON) { reply_format_func = notmuch_reply_format_sprinter; sp = sprinter_json_create (config, stdout); } else if (format == FORMAT_SEXP) { reply_format_func = notmuch_reply_format_sprinter; sp = sprinter_sexp_create (config, stdout); } else { reply_format_func = notmuch_reply_format_default; } notmuch_exit_if_unsupported_format (); query_string = query_string_from_args (config, argc-opt_index, argv+opt_index); if (query_string == NULL) { fprintf (stderr, "Out of memory\n"); return EXIT_FAILURE; } if (*query_string == '\0') { fprintf (stderr, "Error: notmuch reply requires at least one search term.\n"); return EXIT_FAILURE; } if (notmuch_database_open (notmuch_config_get_database_path (config), NOTMUCH_DATABASE_MODE_READ_ONLY, ¬much)) return EXIT_FAILURE; query = notmuch_query_create (notmuch, query_string); if (query == NULL) { fprintf (stderr, "Out of memory\n"); return EXIT_FAILURE; } if (reply_format_func (config, config, query, ¶ms, reply_all, sp) != 0) return EXIT_FAILURE; notmuch_crypto_cleanup (¶ms.crypto); notmuch_query_destroy (query); notmuch_database_destroy (notmuch); return EXIT_SUCCESS; }