Integrated the DKIM signer into serv_smtpclient, but disabled it

[citadel.git] / citadel / server / modules / smtp / serv_smtpclient.c

// Transmit outbound SMTP mail to the big wide world of the Internet
//
// This is the new, exciting, clever version that makes libcurl do all the work  :)
//
// Copyright (c) 1997-2024 by the citadel.org team
//
// This program is open source software.  Use, duplication, or disclosure
// is subject to the terms of the GNU General Public License, version 3.

#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <time.h>
#include <ctype.h>
#include <string.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <libcitadel.h>
#include <curl/curl.h>
#include "../../sysconfig.h"
#include "../../citadel_defs.h"
#include "../../server.h"
#include "../../citserver.h"
#include "../../support.h"
#include "../../config.h"
#include "../../ctdl_module.h"
#include "../../clientsocket.h"
#include "../../msgbase.h"
#include "../../domain.h"
#include "../../internet_addressing.h"
#include "../../citadel_dirs.h"
#include "../smtp/smtp_util.h"

long last_queue_job_submitted = 0;
long last_queue_job_processed = 0;

struct smtpmsgsrc {             // Data passed in and out of libcurl for message upload
        StrBuf *TheMessage;
        int bytes_total;
        int bytes_sent;
};

// Initialize the SMTP outbound queue
void smtp_init_spoolout(void) {
        struct ctdlroom qrbuf;

        // Create the room.  This will silently fail if the room already
        // exists, and that's perfectly ok, because we want it to exist.
        CtdlCreateRoom(SMTP_SPOOLOUT_ROOM, 3, "", 0, 1, 0, VIEW_QUEUE);

        // Make sure it's set to be a "system room" so it doesn't show up
        // in the <K>nown rooms list for administrators.
        if (CtdlGetRoomLock(&qrbuf, SMTP_SPOOLOUT_ROOM) == 0) {
                qrbuf.QRflags2 |= QR2_SYSTEM;
                CtdlPutRoomLock(&qrbuf);
        }
}


// For internet mail, generate a delivery job.
// Yes, this is recursive.  Deal with it.  Infinite recursion does
// not happen because the message containing the delivery job does not
// have a recipient.
int smtp_aftersave(struct CtdlMessage *msg, struct recptypes *recps) {
        if ((recps != NULL) && (recps->num_internet > 0)) {
                struct CtdlMessage *imsg = NULL;
                char recipient[SIZ];
                StrBuf *SpoolMsg = NewStrBuf();
                long nTokens;
                int i;

                syslog(LOG_DEBUG, "smtpclient: generating delivery job");

                StrBufPrintf(SpoolMsg,
                             "Content-type: " SPOOLMIME "\n"
                             "\n"
                             "msgid|%s\n"
                             "submitted|%ld\n" "bounceto|%s\n", msg->cm_fields[eVltMsgNum], (long) time(NULL), recps->bounce_to);

                if (recps->envelope_from != NULL) {
                        StrBufAppendBufPlain(SpoolMsg, HKEY("envelope_from|"), 0);
                        StrBufAppendBufPlain(SpoolMsg, recps->envelope_from, -1, 0);
                        StrBufAppendBufPlain(SpoolMsg, HKEY("\n"), 0);
                }
                if (recps->sending_room != NULL) {
                        StrBufAppendBufPlain(SpoolMsg, HKEY("source_room|"), 0);
                        StrBufAppendBufPlain(SpoolMsg, recps->sending_room, -1, 0);
                        StrBufAppendBufPlain(SpoolMsg, HKEY("\n"), 0);
                }

                nTokens = num_tokens(recps->recp_internet, '|');
                for (i = 0; i < nTokens; i++) {
                        long len;
                        len = extract_token(recipient, recps->recp_internet, i, '|', sizeof recipient);
                        if (len > 0) {
                                StrBufAppendBufPlain(SpoolMsg, HKEY("remote|"), 0);
                                StrBufAppendBufPlain(SpoolMsg, recipient, len, 0);
                                StrBufAppendBufPlain(SpoolMsg, HKEY("|0||\n"), 0);
                        }
                }

                imsg = malloc(sizeof(struct CtdlMessage));
                memset(imsg, 0, sizeof(struct CtdlMessage));
                imsg->cm_magic = CTDLMESSAGE_MAGIC;
                imsg->cm_anon_type = MES_NORMAL;
                imsg->cm_format_type = FMT_RFC822;
                CM_SetField(imsg, eMsgSubject, "QMSG");
                CM_SetField(imsg, eAuthor, "Citadel");
                CM_SetField(imsg, eJournal, "do not journal");
                CM_SetAsFieldSB(imsg, eMessageText, &SpoolMsg);
                last_queue_job_submitted = CtdlSubmitMsg(imsg, NULL, SMTP_SPOOLOUT_ROOM);
                CM_Free(imsg);
        }
        return 0;
}


// Callback for smtp_attempt_delivery() to supply libcurl with upload data.
static size_t upload_source(void *ptr, size_t size, size_t nmemb, void *userp) {
        struct smtpmsgsrc *s = (struct smtpmsgsrc *) userp;
        int sendbytes = 0;
        const char *send_this = NULL;

        sendbytes = (size * nmemb);

        if (s->bytes_sent >= s->bytes_total) {
                return (0);                                     // no data remaining; we are done
        }

        if (sendbytes > (s->bytes_total - s->bytes_sent)) {
                sendbytes = s->bytes_total - s->bytes_sent;     // can't send more than we have
        }

        send_this = ChrPtr(s->TheMessage);
        send_this += s->bytes_sent;                             // start where we last left off

        memcpy(ptr, send_this, sendbytes);
        s->bytes_sent += sendbytes;
        return(sendbytes);                                      // return the number of bytes _actually_ copied
}


// The libcurl API doesn't provide a way to capture the actual SMTP result message returned
// by the remote server.  This is an ugly way to extract it, by capturing debug data from
// the library and filtering on the lines we want.
int ctdl_libcurl_smtp_debug_callback(CURL *handle, curl_infotype type, char *data, size_t size, void *userptr) {
        if (type != CURLINFO_HEADER_IN)
                return 0;
        if (!userptr)
                return 0;
        char *debugbuf = (char *) userptr;

        int len = strlen(debugbuf);
        if (len + size > SIZ)
                return 0;

        memcpy(&debugbuf[len], data, size);
        debugbuf[len + size] = 0;
        return 0;
}


// Go through the debug output of an SMTP transaction, and boil it down to just the final success or error response message.
void trim_response(long response_code, char *response) {
        if ((response_code < 100) || (response_code > 999) || (IsEmptyStr(response))) {
                return;
        }

        char *p;
        for (p = response; *p != 0; ++p) {
                if ( (*p != '\n') && (!isprint(*p)) ) {         // expunge any nonprintables except for newlines
                        *p = ' ';
                }
        }

        char response_code_str[4];
        snprintf(response_code_str, sizeof response_code_str, "%ld", response_code);
        char *respstart = strstr(response, response_code_str);
        if (respstart == NULL) {                                // If we have a response code but no response text,
                strcpy(response, smtpstatus(response_code));    // use one of our canned messages.
                return;
        }
        strcpy(response, respstart);

        p = strstr(response, "\n");
        if (p != NULL) {
                *p = 0;
        }
}


// Attempt a delivery to one recipient.
// Returns a three-digit SMTP status code.
int smtp_attempt_delivery(long msgid, char *recp, char *envelope_from, char *source_room, char *response) {
        struct smtpmsgsrc s;
        char *fromaddr = NULL;
        CURL *curl;
        CURLcode res = CURLE_OK;
        struct curl_slist *recipients = NULL;
        long response_code = 421;
        int num_mx = 0;
        char mxes[SIZ];
        char user[1024];
        char node[1024];
        char name[1024];
        char try_this_mx[256];
        char smtp_url[512];
        int i;

        syslog(LOG_DEBUG, "smtpclient: smtp_attempt_delivery(%ld, %s)", msgid, recp);

        process_rfc822_addr(recp, user, node, name);    // split recipient address into username, hostname, displayname
        num_mx = getmx(mxes, node);
        if (num_mx < 1) {
                return(421);
        }

        CC->redirect_buffer = NewStrBufPlain(NULL, SIZ);

        // If we have a source room, it's probably a mailing list message; generate an unsubscribe header
        if (!IsEmptyStr(source_room)) {
                char base_url[SIZ];
                char unsubscribe_url[SIZ];
                snprintf(base_url, sizeof base_url, "https://%s/listsub", CtdlGetConfigStr("c_fqdn"));
                generate_one_click_url(unsubscribe_url, base_url, "unsubscribe", source_room, recp);
                cprintf("List-Unsubscribe: %s\r\n", unsubscribe_url);
                cprintf("List-Unsubscribe-Post: List-Unsubscribe=One-Click\r\n");       // RFC 8058

        }

        CtdlOutputMsg(msgid, MT_RFC822, HEADERS_ALL, 0, 1, NULL, 0, NULL, &fromaddr, NULL);
        s.TheMessage = CC->redirect_buffer;
        CC->redirect_buffer = NULL;
        s.bytes_total = StrLength(s.TheMessage);
        s.bytes_sent = 0;
        response_code = 421;

        // Future enhancement: if we implement DKIM signing, this is where it must happen.

        // Keep trying MXes until one works or we run out.
        for (i = 0; ((i < num_mx) && ((response_code / 100) == 4)); ++i) {
                response_code = 421;    // default 421 makes non-protocol errors transient
                s.bytes_sent = 0;       // rewind our buffer in case we try multiple MXes

                curl = curl_easy_init();
                if (curl) {
                        response[0] = 0;

                        if (!IsEmptyStr(envelope_from)) {
                                curl_easy_setopt(curl, CURLOPT_MAIL_FROM, envelope_from);
                        }
                        else {
                                curl_easy_setopt(curl, CURLOPT_MAIL_FROM, fromaddr);
                        }

                        recipients = curl_slist_append(recipients, recp);
                        curl_easy_setopt(curl, CURLOPT_MAIL_RCPT, recipients);
                        curl_easy_setopt(curl, CURLOPT_READFUNCTION, upload_source);
                        curl_easy_setopt(curl, CURLOPT_READDATA, &s);
                        curl_easy_setopt(curl, CURLOPT_UPLOAD, 1);                              // tell libcurl we are uploading
                        curl_easy_setopt(curl, CURLOPT_TIMEOUT, 20L);                           // Time out after 20 seconds
                        if (CtdlGetConfigInt("c_smtpclient_disable_starttls") == 0) {
                                curl_easy_setopt(curl, CURLOPT_USE_SSL, CURLUSESSL_TRY);        // Attempt STARTTLS if offered
                        }
                        curl_easy_setopt(curl, CURLOPT_SSL_VERIFYPEER, 0L);
                        curl_easy_setopt(curl, CURLOPT_SSL_VERIFYHOST, 0L);
                        curl_easy_setopt(curl, CURLOPT_DEBUGFUNCTION, ctdl_libcurl_smtp_debug_callback);
                        curl_easy_setopt(curl, CURLOPT_DEBUGDATA, (void *) response);
                        curl_easy_setopt(curl, CURLOPT_VERBOSE, 1L);

                        // Construct an SMTP URL in the form of:
                        //      smtp[s]://target_host/source_host
                        // This looks weird but libcurl uses that last part to set our name for EHLO or HELO.
                        // We check for "smtp://" and "smtps://" because an admin may have put those prefixes in a smart-host entry
                        // If there is no prefix we add "smtp://"
                        extract_token(try_this_mx, mxes, i, '|', (sizeof try_this_mx - 7));
                        snprintf(smtp_url, sizeof smtp_url,
                                "%s%s/%s",
                                (((!strncasecmp(try_this_mx, HKEY("smtp://")))
                                || (!strncasecmp(try_this_mx, HKEY("smtps://")))) ? "" : "smtp://"),
                                try_this_mx, CtdlGetConfigStr("c_fqdn")
                        );
                        curl_easy_setopt(curl, CURLOPT_URL, smtp_url);
                        syslog(LOG_DEBUG, "smtpclient: trying MX %d of %d <%s>", i+1, num_mx, smtp_url);        // send the message
                        res = curl_easy_perform(curl);
                        curl_easy_getinfo(curl, CURLINFO_RESPONSE_CODE, &response_code);
                        syslog(LOG_DEBUG,
                               "smtpclient: libcurl returned %d (%s) , SMTP response %ld",
                               res, curl_easy_strerror(res), response_code
                        );

                        if ((res != CURLE_OK) && (response_code == 0)) {        // check for errors
                                response_code = 421;
                        }

                        curl_slist_free_all(recipients);
                        recipients = NULL;                                      // this gets reused; avoid double-free
                        curl_easy_cleanup(curl);
                        curl = NULL;                                            // this gets reused; avoid double-free

                        // Trim the error message buffer down to just the actual message
                        trim_response(response_code, response);
                }
        }

        FreeStrBuf(&s.TheMessage);
        if (fromaddr) {
                free(fromaddr);
        }
        return ((int) response_code);
}


// Process one outbound message.
void smtp_process_one_msg(long qmsgnum) {
        struct CtdlMessage *msg = NULL;
        char *instr = NULL;
        int i;
        int num_success = 0;
        int num_fail = 0;
        int num_delayed = 0;
        long deletes[2];
        int delete_this_queue = 0;
        char server_response[SIZ];

        msg = CtdlFetchMessage(qmsgnum, 1);
        if (msg == NULL) {
                syslog(LOG_WARNING, "smtpclient: msg#%ld does not exist", qmsgnum);
                return;
        }

        instr = msg->cm_fields[eMessageText];
        msg->cm_fields[eMessageText] = NULL;
        CM_Free(msg);

        // if the queue job message has any CRLF's convert them to LF's
        char *crlf = NULL;
        while (crlf = strstr(instr, "\r\n"), crlf != NULL) {
                strcpy(crlf, crlf + 1);
        }

        // Strip out the headers and we are now left with just the instructions.
        char *soi = strstr(instr, "\n\n");
        if (soi) {
                strcpy(instr, soi + 2);
        }

        long msgid = 0;
        time_t submitted = time(NULL);
        time_t attempted = 0;
        char *bounceto = NULL;
        char *envelope_from = NULL;
        char *source_room = NULL;

        char cfgline[SIZ];
        for (i = 0; i < num_tokens(instr, '\n'); ++i) {
                extract_token(cfgline, instr, i, '\n', sizeof cfgline);
                if (!strncasecmp(cfgline, HKEY("msgid|")))              msgid = atol(&cfgline[6]);
                if (!strncasecmp(cfgline, HKEY("submitted|")))          submitted = atol(&cfgline[10]);
                if (!strncasecmp(cfgline, HKEY("attempted|")))          attempted = atol(&cfgline[10]);
                if (!strncasecmp(cfgline, HKEY("bounceto|")))           bounceto = strdup(&cfgline[9]);
                if (!strncasecmp(cfgline, HKEY("envelope_from|")))      envelope_from = strdup(&cfgline[14]);
                if (!strncasecmp(cfgline, HKEY("source_room|")))        source_room = strdup(&cfgline[12]);
        }

        int should_try_now = 0;
        if (attempted < submitted) {                    // If no attempts have been made yet, try now
                should_try_now = 1;
        }
        else if ((attempted - submitted) <= 14400) {
                if ((time(NULL) - attempted) > 1800) {  // First four hours, retry every 30 minutes
                        should_try_now = 1;
                }
        }
        else {
                if ((time(NULL) - attempted) > 14400) { // After that, retry once every 4 hours
                        should_try_now = 1;
                }
        }

        if (should_try_now) {
                syslog(LOG_DEBUG, "smtpclient: attempting delivery of message <%ld> now", qmsgnum);
                if (source_room) {
                        syslog(LOG_DEBUG, "smtpclient: this message originated in <%s>", source_room);
                }
                StrBuf *NewInstr = NewStrBuf();
                StrBufAppendPrintf(NewInstr, "Content-type: " SPOOLMIME "\n\n");
                StrBufAppendPrintf(NewInstr, "msgid|%ld\n", msgid);
                StrBufAppendPrintf(NewInstr, "submitted|%ld\n", submitted);
                if (bounceto) {
                        StrBufAppendPrintf(NewInstr, "bounceto|%s\n", bounceto);
                }
                if (envelope_from) {
                        StrBufAppendPrintf(NewInstr, "envelope_from|%s\n", envelope_from);
                }
                for (i = 0; i < num_tokens(instr, '\n'); ++i) {
                        extract_token(cfgline, instr, i, '\n', sizeof cfgline);
                        if (!strncasecmp(cfgline, HKEY("remote|"))) {
                                char recp[SIZ];
                                int previous_result = extract_int(cfgline, 2);
                                if ((previous_result == 0) || (previous_result == 4)) {
                                        int new_result = 421;
                                        extract_token(recp, cfgline, 1, '|', sizeof recp);
                                        new_result = smtp_attempt_delivery(msgid, recp, envelope_from, source_room, server_response);
                                        syslog(LOG_DEBUG, "smtpclient: recp: <%s> , result: %d (%s)", recp, new_result, server_response);
                                        if ((new_result / 100) == 2) {
                                                ++num_success;
                                        }
                                        else {
                                                if ((new_result / 100) == 5) {
                                                        ++num_fail;
                                                }
                                                else {
                                                        ++num_delayed;
                                                }
                                                StrBufAppendPrintf(NewInstr, "remote|%s|%ld|%ld (%s)\n", recp, (new_result / 100), new_result, server_response);
                                        }
                                }
                        }
                }

                StrBufAppendPrintf(NewInstr, "attempted|%ld\n", time(NULL));

                // All deliveries have now been attempted.  Now determine the disposition of this queue entry.

                time_t age = time(NULL) - submitted;
                syslog(LOG_DEBUG,
                       "smtpclient: submission age: %ldd%ldh%ldm%lds",
                       (age / 86400), ((age % 86400) / 3600), ((age % 3600) / 60), (age % 60));
                syslog(LOG_DEBUG, "smtpclient: num_success=%d , num_fail=%d , num_delayed=%d", num_success, num_fail, num_delayed);

                // If there are permanent fails on this attempt, deliver a bounce to the user.
                // The 5XX fails will be recorded in the rewritten queue, but they will be removed before the next attempt.
                if (num_fail > 0) {
                        smtp_do_bounce(ChrPtr(NewInstr), SDB_BOUNCE_FATALS);
                }
                // If all deliveries have either succeeded or failed, we are finished with this queue entry.
                if (num_delayed == 0) {
                        delete_this_queue = 1;
                }
                // If it's been more than five days, give up and tell the sender that delivery failed
                else if ((time(NULL) - submitted) > SMTP_DELIVER_FAIL) {
                        smtp_do_bounce(ChrPtr(NewInstr), SDB_BOUNCE_ALL);
                        delete_this_queue = 1;
                }
                // If it's been more than four hours but less than five days, warn the sender that delivery is delayed
                else if (((attempted - submitted) < SMTP_DELIVER_WARN) && ((time(NULL) - submitted) >= SMTP_DELIVER_WARN)) {
                        smtp_do_bounce(ChrPtr(NewInstr), SDB_WARN);
                }

                if (delete_this_queue) {
                        syslog(LOG_DEBUG, "smtpclient: %ld deleting", qmsgnum);
                        deletes[0] = qmsgnum;
                        deletes[1] = msgid;
                        CtdlDeleteMessages(SMTP_SPOOLOUT_ROOM, deletes, 2, "");
                        FreeStrBuf(&NewInstr);  // We have to free NewInstr here, no longer needed
                }
                else {
                        // replace the old queue entry with the new one
                        syslog(LOG_DEBUG, "smtpclient: %ld rewriting", qmsgnum);
                        msg = convert_internet_message_buf(&NewInstr);  // This function will free NewInstr for us
                        CtdlSubmitMsg(msg, NULL, SMTP_SPOOLOUT_ROOM);
                        CM_Free(msg);
                        CtdlDeleteMessages(SMTP_SPOOLOUT_ROOM, &qmsgnum, 1, "");
                }
        }
        else {
                syslog(LOG_DEBUG, "smtpclient: msg#%ld retry time not reached", qmsgnum);
        }

        if (bounceto != NULL) {
                free(bounceto);
        }
        if (envelope_from != NULL) {
                free(envelope_from);
        }
        if (source_room != NULL) {
                free(source_room);
        }
        free(instr);
}


// Callback for smtp_do_queue()
void smtp_add_msg(long msgnum, void *userdata) {
        Array *smtp_queue = (Array *) userdata;
        array_append(smtp_queue, &msgnum);
}


enum {
        FULL_QUEUE_RUN,         // try to process the entire queue, including messages that have already been attempted
        QUICK_QUEUE_RUN         // only process jobs in the queue that have not been tried yet
};


// Run through the queue sending out messages.
void smtp_do_queue(int type_of_queue_run) {
        static int doing_smtpclient = 0;
        int i = 0;

        // This is a concurrency check to make sure only one smtpclient run is done at a time.
        begin_critical_section(S_SMTPQUEUE);
        if (doing_smtpclient) {
                end_critical_section(S_SMTPQUEUE);
                return;
        }
        doing_smtpclient = 1;
        end_critical_section(S_SMTPQUEUE);

        syslog(LOG_DEBUG, "smtpclient: start %s queue run , last_queue_job_processed=%ld , last_queue_job_submitted=%ld",
                (type_of_queue_run == QUICK_QUEUE_RUN ? "quick" : "full"),
                last_queue_job_processed, last_queue_job_submitted
        );

        if (CtdlGetRoom(&CC->room, SMTP_SPOOLOUT_ROOM) != 0) {
                syslog(LOG_WARNING, "smtpclient: cannot find room <%s>", SMTP_SPOOLOUT_ROOM);
                doing_smtpclient = 0;
                return;
        }

        // This array will hold the list of queue job messages
        Array *smtp_queue = array_new(sizeof(long));
        if (smtp_queue == NULL) {
                syslog(LOG_WARNING, "smtpclient: cannot allocate queue array");
                doing_smtpclient = 0;
                return;
        }

        // Put the queue in memory so we can close the db cursor
        CtdlForEachMessage(
                (type_of_queue_run == QUICK_QUEUE_RUN ? MSGS_GT : MSGS_ALL),            // quick = new jobs; full = all jobs
                (type_of_queue_run == QUICK_QUEUE_RUN ? last_queue_job_processed : 0),  // quick = new jobs; full = all jobs
                NULL,
                SPOOLMIME,              // Searching for Content-type of SPOOLIME will give us only queue instruction messages
                NULL,
                smtp_add_msg,           // That's our callback function to add a job to the queue
                (void *)smtp_queue
        );

        // We are ready to run through the queue now.
        syslog(LOG_DEBUG, "smtpclient: %d messages to be processed", array_len(smtp_queue));
        for (i = 0; i < array_len(smtp_queue); ++i) {
                long m;
                memcpy(&m, array_get_element_at(smtp_queue, i), sizeof(long));
                smtp_process_one_msg(m);
        }

        array_free(smtp_queue);
        last_queue_job_processed = last_queue_job_submitted;
        doing_smtpclient = 0;
        syslog(LOG_DEBUG, "smtpclient: end %s queue run , last_queue_job_processed=%ld , last_queue_job_submitted=%ld",
                (type_of_queue_run == QUICK_QUEUE_RUN ? "quick" : "full"),
                last_queue_job_processed, last_queue_job_submitted
        );
}


// The "full" queue run goes through the entire queue, attempting delivery for newly submitted messages,
// retrying failed deliveries periodically, and handling undeliverable messages.
void smtp_do_queue_full(void) {
        smtp_do_queue(FULL_QUEUE_RUN);
}


// The "quick" queue run only handles newly submitted messages, allowing them to be delivered immediately
// instead of waiting for the next "full" queue run.
void smtp_do_queue_quick(void) {
        if (last_queue_job_submitted > last_queue_job_processed) {
                smtp_do_queue(QUICK_QUEUE_RUN);
        }
}


// Initialization function, called from modules_init.c
char *ctdl_module_init_smtpclient(void) {
        if (!threading) {
                CtdlRegisterMessageHook(smtp_aftersave, EVT_AFTERSAVE);
                CtdlRegisterSessionHook(smtp_do_queue_quick, EVT_HOUSE, PRIO_AGGR + 51);
                CtdlRegisterSessionHook(smtp_do_queue_full, EVT_TIMER, PRIO_AGGR + 51);
                smtp_init_spoolout();
        }

        // return our module id for the log
        return "smtpclient";
}