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ossp-pkg/lmtp2nntp/lmtp2nntp.c 1.17
/*
 * lmtp2nntp.c
 *
 * The lmtp2nntp program reads mail as a LMTP server and posts it to one or
 * more newsgroups using NNTP. It delivers the message immediately or fails.
 *
 * The OSSP Project, Cable & Wireless Deutschland GmbH
 * Thomas Lotterer, <thomas.lotterer@cw.com>
 *
 */

#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <fcntl.h>

/* third party */
#include "str.h"
#include "argz.h"

/* own headers */
#include "lmtp.h"
#include "nntp.h"
#include "sa.h"
#include "msg.h"
#include "trace.h"

#ifndef FALSE
#define FALSE (1 != 1)
#endif
#ifndef TRUE
#define TRUE (!FALSE)
#endif

#define ERR_EXECUTION -1
#define ERR_DELIVERY -2

#define MESSAGE_MAXLEN 8*1024*1024
#define STDSTRLEN 128
#define MAXNEWSSERVICES 3

extern void lmtp_debug_dumplmtp(lmtp_t *lmtp);

static lmtp_rc_t lmtp_cb_lhlo   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);
static lmtp_rc_t lmtp_cb_mail   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);
static lmtp_rc_t lmtp_cb_rcpt   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);
static lmtp_rc_t lmtp_cb_data   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);
static lmtp_rc_t lmtp_cb_noop   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);
static lmtp_rc_t lmtp_cb_rset   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);
static lmtp_rc_t lmtp_cb_quit   (lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx);

static int helo_rfc0821domain(char *msg, char **domain);
static int helo_rfc1035domain(char *msg, char **domain);

struct session {
    int     lhlo_seen;
    char   *lhlo_domain;
};

static void initsession(struct session *session);
static void resetsession(struct session *session);

struct ns {
    char *h;        /* host */
    char *p;        /* port */
    sa_t *sa;
    int s;          /* socket */
    nntp_t *nntp;
};

typedef struct {
    int     option_verbose;
    int     option_tracing;
    int     option_groupmode;
    int     nsc;
    struct  ns ns[MAXNEWSSERVICES];
    char   *azGroupargs;
    size_t  asGroupargs;
    struct  session session;
    msg_t  *msg;
} lmtp2nntp_t;

enum {
    GROUPMODE_ARG,
    GROUPMODE_ENVELOPE,
    GROUPMODE_HEADER
};

/*
 * print usage information
 */
static void usage(char *command)
{
    fprintf(stderr, 
            "USAGE: %s [-p protocol] [-l logtarget] "
            "[-h host[:port]] [-m mode] [-t] [-v] newsgroup [newsgroup ...]\n",
            command);
    return;
}

int main(int argc, char **argv)
{
    int rc = 0;
    lmtp_t *lmtp;
    lmtp_io_t lmtp_io;
    lmtp2nntp_t *ctx;
    int i;             /* general purpose scratch int, index ... */
    char *progname;
    char *cpHost;
    char *cpPort;
    sa_t *sa;

#if 0
    /* begin NNTP posting test */
    {
    nntp_post(nntp, "...");
    nntp_destroy(nntp);
    sock_destroy(s);
    exit(0);
    }
#endif

    progname = argv[0];

    /* create application context */
    if ((ctx = (lmtp2nntp_t *)malloc(sizeof(lmtp2nntp_t))) == NULL)
        exit(ERR_EXECUTION);
    ctx->option_verbose = FALSE;
    ctx->option_tracing = FALSE;
    ctx->option_groupmode = GROUPMODE_ARG;
    ctx->nsc = 0;
    for (i=0; i < MAXNEWSSERVICES; i++) {
        ctx->ns[i].h = "";
        ctx->ns[i].s = -1;
        ctx->ns[i].nntp = NULL;
    }
    ctx->azGroupargs = NULL;
    ctx->asGroupargs = 0;
    initsession(&ctx->session);
    ctx->msg = NULL;

#if 0
    {
        char buf[1000];
        int bufused = 0;
        int tracefile;

        for (i=0; i<argc; i++)
            bufused+=sprintf(buf+bufused, "[%d]=\"%s\"\n", i, argv[i]);
        if ((tracefile = open("/tmp/t", O_CREAT|O_WRONLY|O_APPEND, 0664)) != -1) {
            write(tracefile, buf, bufused);
            close(tracefile);
        }
    }
#endif

    /* read in the arguments */
    while ((i = getopt(argc, argv, "g:h:t:v")) != -1) {
        switch (i) {
            case 'g': /* -g groupmode */
                if      (strcasecmp(optarg, "arg") == 0)
                    ctx->option_groupmode = GROUPMODE_ARG;
                else if (strcasecmp(optarg, "envelope") == 0)
                    ctx->option_groupmode = GROUPMODE_ENVELOPE;
                else if (strcasecmp(optarg, "header") == 0)
                    ctx->option_groupmode = GROUPMODE_HEADER;
                else {
                    fprintf(stderr, "%s:Error: Invalid mode \"%s\" to option -g\n", progname, optarg);
                    exit(ERR_EXECUTION);
                }
                break;
            case 'h': /* -h host */
                if (ctx->nsc >= MAXNEWSSERVICES) {
                    fprintf(stderr, "%s:Error: Too many services (%d) using option -h\n", progname, ctx->nsc);
                    exit(ERR_EXECUTION);
                }

                /* parse host[:port] string into host and port */
                cpHost = strdup(optarg);
                if ((cpPort = strrchr(cpHost, ':')) != NULL) {
                    *cpPort++ = '\0';
                    cpPort = strdup(cpPort);
                }
                else 
                    cpPort = strdup("nntp");
                ctx->ns[ctx->nsc].h = cpHost;
                ctx->ns[ctx->nsc].p = cpPort;

                if ((sa = sa_create(SA_IP, "tcp",
                                    ctx->ns[ctx->nsc].h,
                                    ctx->ns[ctx->nsc].p)) == NULL) {
                    fprintf(stderr, "%s:Error: creating TCP socket address failed for \"%s:%s\": %s\n", 
                            progname, 
                            ctx->ns[ctx->nsc].h, 
                            ctx->ns[ctx->nsc].p, 
                            strerror(errno));
                    exit(ERR_EXECUTION);
                }
                if ((ctx->ns[ctx->nsc].s =
                     socket(sa->sa_buf->sa_family, SOCK_STREAM, sa->sa_proto)) == -1) {
                    fprintf(stderr, "%s:Error: Creating TCP socket failed for \"%s:%s\": %s\n", 
                            progname, 
                            ctx->ns[ctx->nsc].h, 
                            ctx->ns[ctx->nsc].p, 
                            strerror(errno));
                    exit(ERR_EXECUTION);
                }
                ctx->ns[ctx->nsc].sa = sa;
                //FIXME sa_destroy(sa);
                ctx->ns[ctx->nsc].nntp = NULL;
                ctx->nsc++;
                break;
            case 't': // -t (tracing)
                ctx->option_tracing = TRUE;
                trace_read (-1, optarg, 0);
                trace_write(-1, optarg, 0);
                break;
            case 'v': // -v (verbose)
                ctx->option_verbose = TRUE;
                break;
            case '?':
            default:
                usage(progname);
                exit(ERR_EXECUTION);
        }
    }
    /* remaining arguments are Groupargs */
    for (i = optind; i < argc; i++) {
        //fprintf(stderr, "DEBUG: argv[i] = ***%s***\n", argv[i]);
        argz_add(&ctx->azGroupargs, &ctx->asGroupargs, argv[i]);
    }

    /* initialize LMTP context */
    lmtp_io.select = NULL;
    lmtp_io.read   = trace_read;
    lmtp_io.write  = trace_write;
    if ((lmtp = lmtp_create(STDIN_FILENO, STDOUT_FILENO, ctx->option_tracing != TRUE ? NULL : &lmtp_io)) == NULL) {
        fprintf(stderr, "%s:Error: Unable to initialize LMTP library\n", progname);
        exit(ERR_EXECUTION);
    }
    lmtp_register(lmtp, "LHLO", lmtp_cb_lhlo, ctx, NULL, NULL); 
    lmtp_register(lmtp, "MAIL", lmtp_cb_mail, ctx, NULL, NULL);
    lmtp_register(lmtp, "RCPT", lmtp_cb_rcpt, ctx, NULL, NULL);
    lmtp_register(lmtp, "DATA", lmtp_cb_data, ctx, NULL, NULL);
    lmtp_register(lmtp, "NOOP", lmtp_cb_noop, ctx, NULL, NULL);
    lmtp_register(lmtp, "RSET", lmtp_cb_rset, ctx, NULL, NULL);
    lmtp_register(lmtp, "QUIT", lmtp_cb_quit, ctx, NULL, NULL);
    
    /* loop for LMTP protocol */
    lmtp_loop(lmtp);

    return rc;
}

static void resetsession(struct session *session)
{
                                             //FIXME what about non-graceful aborts?
    if (session->lhlo_domain != NULL)
        free(session->lhlo_domain);         
    initsession(session);
    return;
}

static void initsession(struct session *session)
{
    session->lhlo_seen = FALSE;
    session->lhlo_domain = NULL;
    return;
}

static lmtp_rc_t lmtp_cb_lhlo(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *_ctx)
{
    /*  
     *  RFC821 [excerpt] 4.1. SMTP COMMANDS
     *  4.1.1.  COMMAND SEMANTICS, HELO
     *  This command and an OK reply to it confirm that both the sender-SMTP
     *  and the receiver-SMTP are in the initial state, that is, there is no
     *  transaction in progress and all state tables and buffers are cleared.
     * 
     *  The first command in a session must be the HELO command.  The HELO
     *  command may be used later in a session as well.  If the HELO command
     *  argument is not acceptable a 501 failure reply must be returned and
     *  the receiver-SMTP must stay in the same state.
     *
     *  If the transaction beginning command argument is not acceptable a 501
     *  failure reply must be returned and the receiver-SMTP must stay in the
     *  same state.  If the commands in a transaction are out of order a 503
     *  failure reply must be returned and the receiver-SMTP must stay in the
     *  same state.
     *
     *  HELO <SP> <domain> <CRLF>
     */
    lmtp2nntp_t *ctx = (lmtp2nntp_t *)_ctx;
    lmtp_res_t res;
    nntp_rc_t rc;
    char str[STDSTRLEN];
    int bOk;
    int i;
    nntp_io_t nntp_io;

    nntp_io.select = NULL;
    nntp_io.read   = trace_read;
    nntp_io.write  = trace_write;

    if (ctx->session.lhlo_seen == TRUE) {
        res.statuscode = "503";
        res.dsncode    = "5.0.0";
        res.statusmsg  = "Duplicate LHLO.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    if (! (   helo_rfc0821domain(req->msg, &ctx->session.lhlo_domain)
           || helo_rfc1035domain(req->msg, &ctx->session.lhlo_domain)
             )) {
        res.statuscode = "501";
        res.dsncode    = "5.0.0";
        res.statusmsg  = "Please identify yourself. Domain must match RFC0821/RFC1035.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    if (ctx->nsc == 0) {
        res.statuscode = "501";
        res.dsncode    = "5.0.0";
        res.statusmsg  = "No valid NNTP Services specified.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    i = 0;
    do {
        bOk = TRUE;
        if (connect(ctx->ns[i].s, ctx->ns[i].sa->sa_buf, ctx->ns[i].sa->sa_len) < 0) {
            //fprintf(stderr, "DEBUG: connect failed: %s\n", strerror(errno));
            bOk = FALSE;
        }
        if (bOk && ((ctx->ns[i].nntp = nntp_create(ctx->ns[i].s, ctx->ns[i].s, 
                                                   ctx->option_tracing != TRUE ? NULL : &nntp_io)) == NULL)) {
            //fprintf(stderr, "DEBUG: nntp_create failed: %s\n", strerror(errno));
            bOk = FALSE;
        }
        if (bOk && ((rc = nntp_init(ctx->ns[i].nntp)) != NNTP_OK)) {
            //fprintf(stderr, "DEBUG: nntp_init failed: %s\n", nntp_error(rc));
            bOk = FALSE;
        }
        if (bOk)
            i++;
        else {
            if (i < --ctx->nsc) {
                memcpy(&ctx->ns[i], &ctx->ns[i+1], (ctx->nsc - i ) * sizeof(struct ns));
            }
        }
    } while (i < ctx->nsc);

    if (ctx->nsc == 0) {
        res.statuscode = "501";
        res.dsncode    = "5.0.0";
        res.statusmsg  = "No connection to any NNTP Service."; //FIXME add error strings from above DEBUGs
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }
        
    ctx->session.lhlo_seen = TRUE;
    str_format(str, sizeof(str),
               "FIXME.dev.de.cw.net"   /* RFC2821 4.1.1.1 */
               " Hello %s, pleased to meet you.\n"
               "ENHANCEDSTATUSCODES\n" /* RFC2034 */
               "DSN\n"                 /* RFC1894 */
               "PIPELINING\n"          /* RFC1854 */
               "8BITMIME",             /* RFC1652 */
               ctx->session.lhlo_domain);
    res.statuscode = "250";
    res.dsncode    = NULL;             /* DSN not used for greeting */
    res.statusmsg  = str;
    lmtp_response(lmtp, &res);
    return LMTP_OK;
}

static int helo_rfc0821domain(char *msg, char **domain)
{
    int rc;

    rc = str_parse(msg, 
            "^.+ ("
    /*
     ##
     ##  The mega Perl regular expression below is generated
     ##  with the following Perl program. This is only possible
     ##  because the given grammar is Chomsky-3 (right or left
     ##  linear grammar, but noth both).
     ##
    
     # BNF grammar for <domain> according to RFC 821:
     # <snum>        ::= one, two, or three digits representing a decimal integer value in the range 0 through 255
     # <a>           ::= any one of the 52 alphabetic characters A through Z in upper case and a through z in lower case
     # <d>           ::= any one of the ten digits 0 through 9
     # <let-dig-hyp> ::= <a> | <d> | "-"
     # <let-dig>     ::= <a> | <d>
     # <ldh-str>     ::= <let-dig-hyp> | <let-dig-hyp> <ldh-str>
     # <dotnum>      ::= <snum> "." <snum> "." <snum> "." <snum>
     # <number>      ::= <d> | <d> <number>
     # <name>        ::= <a> <ldh-str> <let-dig>
     # <element>     ::= <name> | "#" <number> | "[" <dotnum> "]"
     # <domain>      ::= <element> | <element> "." <domain>
     #
     # corresponding Perl regular expression ($domain)
     $snum        = "(?:[0-9]|[0-9]{2}|[0-1][0-9]{2}|2[0-4][0-9]|25[0-5])";
     $d           = "[0-9]";
     $a           = "[A-Za-z]";
     $let_dig_hyp = "(?:$a|$d|-)";
     $let_dig     = "(?:$a|$d)";
     $ldh_str     = "${let_dig_hyp}+";
     $dotnum      = "$snum\\.$snum\\.$snum\\.$snum";
     $number      = "$d+";
     $name        = "$a$ldh_str$let_dig";
     $element     = "(?:$name|#$number|\\[$dotnum\\])";
     $domain      = "(?:$element\.)*$element";
     #
     # translate into C string block suitable for passing to the Perl
     # Compatible Regular Expressions (PCRE) based string library Str.
     my $cregex = $domain;
     $cregex =~ s|\\|\\\\|sg;
     $cregex =~ s|(.{70})|"$1"\n|sg;
     $cregex =~ s|\n([^\n]+)$|\n"$1"|s; #FIXME this fails when last
                                        #FIXME line matches linelength exacly
     print "$cregex\n";
     */

    "(?:(?:[A-Za-z](?:[A-Za-z]|[0-9]|-)+(?:[A-Za-z]|[0-9])|#[0-9]+|\\[(?:[0"
    "-9]|[0-9]{2}|[0-1][0-9]{2}|2[0-4][0-9]|25[0-5])\\.(?:[0-9]|[0-9]{2}|[0"
    "-1][0-9]{2}|2[0-4][0-9]|25[0-5])\\.(?:[0-9]|[0-9]{2}|[0-1][0-9]{2}|2[0"
    "-4][0-9]|25[0-5])\\.(?:[0-9]|[0-9]{2}|[0-1][0-9]{2}|2[0-4][0-9]|25[0-5"
    "])\\]).)*(?:[A-Za-z](?:[A-Za-z]|[0-9]|-)+(?:[A-Za-z]|[0-9])|#[0-9]+|\\"
    "[(?:[0-9]|[0-9]{2}|[0-1][0-9]{2}|2[0-4][0-9]|25[0-5])\\.(?:[0-9]|[0-9]"
    "{2}|[0-1][0-9]{2}|2[0-4][0-9]|25[0-5])\\.(?:[0-9]|[0-9]{2}|[0-1][0-9]{"
    "2}|2[0-4][0-9]|25[0-5])\\.(?:[0-9]|[0-9]{2}|[0-1][0-9]{2}|2[0-4][0-9]|"
    "25[0-5])\\])"

    ")$", domain);
    return rc;
}

static int helo_rfc1035domain(char *msg, char **domain)
{
    int rc;

    rc = str_parse(msg, 
            "^.+ ("
    /*
     ##
     ##  The mega Perl regular expression below is generated
     ##  with the following Perl program. This is only possible
     ##  because the given grammar is Chomsky-3 (right or left
     ##  linear grammar, but noth both).
     ##

     # BNF grammar for <domain> according to RFC1035:
     # <letter>      ::= any one of the 52 alphabetic characters A through Z in upper case and a through z in lower case
     # <digit>       ::= any one of the ten digits 0 through 9
     # <let-dig>     ::= <letter> | <digit>
     # <let-dig-hyp> ::= <let-dig> | "-"
     # <ldh-str>     ::= <let-dig-hyp> | <let-dig-hyp> <ldh-str>
     # <label>       ::= <letter> [ [ <ldh-str> ] <let-dig> ]
     # <subdomain>   ::= <label> | <subdomain> "." <label>
     # <domain>      ::= <subdomain> | " "
     #
     # corresponding Perl regular expression ($domain)
     $letter      = "[A-Za-z]";
     $digit       = "[0-9]";
     $let_dig     = "(?:$letter|$digit)";
     $let_dig_hyp = "(?:$let_dig|-)";
     $ldh_str     = "${let_dig_hyp}+";
     $label       = "(?:$letter(?:(?:$ldh_str)?$let_dig)?)";
     $subdomain   = "(?:$label\.)*$label";
     $domain      = "(?:$subdomain| )";
     #
     # translate into C string block suitable for passing to the Perl
     # Compatible Regular Expressions (PCRE) based string library Str.
     my $cregex = $domain;
     $cregex =~ s|\\|\\\\|sg;
     $cregex =~ s|(.{70})|"$1"\n|sg;
     $cregex =~ s|\n([^\n]+)$|\n"$1"|s; #FIXME this fails when last
                                        #FIXME line matches linelength exacly
     print "$cregex\n";
     */

    "(?:(?:(?:[A-Za-z](?:(?:(?:(?:[A-Za-z]|[0-9])|-)+)?(?:[A-Za-z]|[0-9]))?"
    ").)*(?:[A-Za-z](?:(?:(?:(?:[A-Za-z]|[0-9])|-)+)?(?:[A-Za-z]|[0-9]))?)|"
    " )"

    ")$", domain);
    return rc;
}

static lmtp_rc_t lmtp_cb_mail(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *_ctx)
{
    lmtp2nntp_t *ctx = (lmtp2nntp_t *)_ctx;
    lmtp_res_t res;

    if (ctx->session.lhlo_seen != TRUE) {
        res.statuscode = "553";
        res.dsncode    = "5.1.8";
        res.statusmsg  = "friendly people say LHLO to open a transmission channel.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    if (ctx->msg != NULL) {
        res.statuscode = "503";
        res.dsncode    = "5.5.0";
        res.statusmsg  = "Sender already specified.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    if ((ctx->msg = msg_create()) == NULL) {
        res.statuscode = "503"; // FIXME
        res.dsncode    = "5.5.0";
        res.statusmsg  = "Internal error - memory.";
        lmtp_response(lmtp, &res);
        return LMTP_ERR_MEM;
    }

    if (!str_parse(req->msg, "m/^MAIL From:\\s*<(.+@.+)>$/i", &ctx->msg->mail_from)) {
        //FIXME                            ^^^^ is this space required/ valid? Sendmail skips them!
        res.statuscode = "553";
        res.dsncode    = "5.5.4";
        res.statusmsg  = "Domain name required for sender address.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }
    
    res.statuscode = "250";
    res.dsncode    = "2.1.0";
    res.statusmsg  = "Sender ok.";
    lmtp_response(lmtp, &res);
    return LMTP_OK;
}

static lmtp_rc_t lmtp_cb_rcpt(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *_ctx)
{
    lmtp_res_t res;
    lmtp2nntp_t *ctx = (lmtp2nntp_t *)_ctx;
    char *cp;
    char *group;

    if (ctx->msg->mail_from == NULL) {
        res.statuscode = "503";
        res.dsncode    = "5.0.0";
        res.statusmsg  = "specify sender with MAIL first.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    if (!str_parse(req->msg, "m/^RCPT To:\\s*(.+)$/i", &cp)) {
        //FIXME                          ^^^^ is this space required/ valid? Sendmail skips them!
        res.statuscode = "501";
        res.dsncode    = "5.5.2";
        res.statusmsg  = "Syntax error in parameters.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }
    
    if ((cp == NULL) || (strlen(cp) == 0)) {
        res.statuscode = "550";
        res.dsncode    = "5.1.1";
        res.statusmsg  = "nul Recipient/ Group.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    /* FIXME
     * in GROUPMODE = ARG|HEADER recipient must be acknowledged and stored to
     * give proper pipelining responses.  in GROUPMODE = ENVELOPE recipient is
     * transformed into a group and matched against groupfilter. Only valid
     * groups are stored to give proper pipelining responses.
     */

    if (ctx->option_groupmode == GROUPMODE_ENVELOPE) {
        //fprintf(stderr, "DEBUG: before transform cp=***%s***\n", cp);
        if (!str_parse(cp, "m/^.+?\\+(.+)?@.+$/i", &group)) { //FIXME >=2 * @
            res.statuscode = "550";
            res.dsncode    = "5.1.1";
            res.statusmsg  = "Recipient did not transform into Group.";
            lmtp_response(lmtp, &res);
            return LMTP_OK;
        }
        //fprintf(stderr, "DEBUG: after  transform group=***%s***\n", group);
        //FIXME do additional transform and checking
        if (0) {
            res.statuscode = "550";
            res.dsncode    = "5.1.1";
            res.statusmsg  = "unmatched Group.";
            lmtp_response(lmtp, &res);
            return LMTP_OK;
        }
        argz_add(&ctx->msg->azEnvgroups, &ctx->msg->asEnvgroups, group);
    }
    
    //fprintf(stderr, "DEBUG: cp=***%s***\n", cp);
    argz_add(&ctx->msg->azRcpt, &ctx->msg->asRcpt, cp);
    res.statuscode = "250";
    res.dsncode    = "2.1.5";
    res.statusmsg  = "Recipient/ Group accepted";
    lmtp_response(lmtp, &res);
    return LMTP_OK;
}

static lmtp_rc_t lmtp_cb_data(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *_ctx)
{
    lmtp_res_t res;
    lmtp_rc_t rc = LMTP_OK;
    lmtp2nntp_t *ctx = (lmtp2nntp_t *)_ctx;
    char errorstring[STDSTRLEN];
    char *rcpt;
    int i;
    int bSuccess;

    if (argz_count(ctx->msg->azRcpt, ctx->msg->asRcpt) == 0) {
        res.statuscode = "503";
        res.dsncode    = "5.0.0";
        res.statusmsg  = "specify recipient with RCPT first.";
        lmtp_response(lmtp, &res);
        return LMTP_OK;
    }

    res.statuscode = "354";
    res.dsncode    = NULL; /* DSN not used for data */
    res.statusmsg  = "Enter mail, end with \".\" on a line by itself";
    lmtp_response(lmtp, &res);

    rc = lmtp_readmsg(lmtp, &ctx->msg->cpMsg, MESSAGE_MAXLEN);

    if (rc == LMTP_ERR_OVERFLOW) {
        str_format(errorstring, sizeof(errorstring), "Overflow reading message: %s", lmtp_error(rc));
        res.statuscode = "500";
        res.dsncode    = "5.0.0";
        res.statusmsg  = errorstring; //FIXME temp or perm error?
        rcpt = NULL;
        while ((rcpt = argz_next(ctx->msg->azRcpt, ctx->msg->asRcpt, rcpt)) != NULL) {
            lmtp_response(lmtp, &res);
        }
        return LMTP_OK;
    }

    if (rc == LMTP_ERR_SYSTEM) {
        str_format(errorstring, sizeof(errorstring), "System error reading message: %s", strerror(errno));
        res.statuscode = "500";
        res.dsncode    = "5.0.0";
        res.statusmsg  = errorstring;
        rcpt = NULL;
        while ((rcpt = argz_next(ctx->msg->azRcpt, ctx->msg->asRcpt, rcpt)) != NULL) {
            lmtp_response(lmtp, &res);
        }
        return LMTP_OK;
    }

    if(rc != LMTP_OK) {
        str_format(errorstring, sizeof(errorstring), "Unknown error reading message: %s", lmtp_error(rc));
        res.statuscode = "500";
        res.dsncode    = "5.0.0";
        res.statusmsg  = errorstring;
        rcpt = NULL;
        while ((rcpt = argz_next(ctx->msg->azRcpt, ctx->msg->asRcpt, rcpt)) != NULL) {
            lmtp_response(lmtp, &res);
        }
        return LMTP_OK;
    }

    //fprintf(stderr, "DEBUG: before msg_split\n");
    if ((rc = msg_split(ctx->msg)) != MSG_OK) {
        str_format(errorstring, sizeof(errorstring), "Error splitting message: %s", msg_error(rc));
        res.statuscode = "500";
        res.dsncode    = "5.0.0";
        res.statusmsg  = errorstring;
        rcpt = NULL;
        while ((rcpt = argz_next(ctx->msg->azRcpt, ctx->msg->asRcpt, rcpt)) != NULL) {
            lmtp_response(lmtp, &res);
        }
        return LMTP_OK;
    }
    //fprintf(stderr, "DEBUG: after msg_split\n");

    if      (ctx->option_groupmode == GROUPMODE_ENVELOPE) {
        ctx->msg->azNewsgroups = memcpy(malloc(ctx->msg->asEnvgroups + 1), ctx->msg->azEnvgroups, ctx->msg->asEnvgroups); //FIXME strdup == NULL
        ctx->msg->asNewsgroups =        ctx->msg->asEnvgroups;
    }
    else if (ctx->option_groupmode == GROUPMODE_ARG) {
        ctx->msg->azNewsgroups = memcpy(malloc(ctx->asGroupargs + 1),      ctx->azGroupargs,      ctx->asGroupargs);      //FIXME strdup == NULL
        ctx->msg->asNewsgroups =        ctx->asGroupargs;
    }
    /* else keep                   == GROUPMODE_HEADERS */

#if 0 //FIXME debug paragraph
    rcpt = NULL;
    while ((rcpt = argz_next(ctx->msg->azNewsgroups, ctx->msg->asNewsgroups, rcpt)) != NULL) {
        fprintf(stderr, "DEBUG: commited group ***%s***\n", rcpt);
    }
#endif

    //fprintf(stderr, "DEBUG: before msg_join\n");
    if ((rc = msg_join(ctx->msg)) != MSG_OK) {
        str_format(errorstring, sizeof(errorstring), "Error joining message: %s", msg_error(rc));
        res.statuscode = "500";
        res.dsncode    = "5.0.0";
        res.statusmsg  = errorstring;
        rcpt = NULL;
        while ((rcpt = argz_next(ctx->msg->azRcpt, ctx->msg->asRcpt, rcpt)) != NULL) {
            lmtp_response(lmtp, &res);
        }
        return LMTP_OK;
    }
    //fprintf(stderr, "DEBUG: after msg_join\n");

    bSuccess = FALSE;
    for (i = 0; i < ctx->nsc; i++) {
        //fprintf(stderr, "DEBUG: trying service %s\n", ctx->ns[i].h);
        if ((rc = nntp_post(ctx->ns[i].nntp, ctx->msg)) == NNTP_OK)
            bSuccess = TRUE;
    }
    //FIXME rc has only last error

    rcpt = NULL;
    while ((rcpt = argz_next(ctx->msg->azRcpt, ctx->msg->asRcpt, rcpt)) != NULL) {
        if (bSuccess == TRUE) {
            str_format(errorstring, sizeof(errorstring), "Message accepted for delivery to %s", rcpt);
            res.statuscode = "250";
            res.dsncode    = "2.0.0";
            res.statusmsg  = errorstring;
        } else {
            str_format(errorstring, sizeof(errorstring), "Last error posting message: %s", nntp_error(rc));
            res.statuscode = "500";
            res.dsncode    = "5.0.0";
            res.statusmsg  = errorstring;
        }
        lmtp_response(lmtp, &res);
    }

    msg_destroy(ctx->msg);
    ctx->msg = NULL;

    return LMTP_OK;
}

static lmtp_rc_t lmtp_cb_noop(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *ctx)
{
    lmtp_res_t res;
    lmtp_rc_t rc = LMTP_OK;

    res.statuscode = "250";
    res.dsncode    = "2.0.0";
    res.statusmsg  = "OK. Nice talking to you.";
    lmtp_response(lmtp, &res);
    return rc;
}

static lmtp_rc_t lmtp_cb_rset(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *_ctx)
{
    lmtp2nntp_t *ctx = (lmtp2nntp_t *)_ctx;
    lmtp_res_t res;
    lmtp_rc_t rc = LMTP_OK;

    msg_destroy(ctx->msg);
    ctx->msg = NULL;

    res.statuscode = "250";
    res.dsncode    = "2.0.0";
    res.statusmsg  = "Reset state.";
    lmtp_response(lmtp, &res);
    return rc;
}

static lmtp_rc_t lmtp_cb_quit(lmtp_t *lmtp, lmtp_io_t *io, lmtp_req_t *req, void *_ctx)
{
    lmtp2nntp_t *ctx = (lmtp2nntp_t *)_ctx;
    lmtp_res_t res;
    lmtp_rc_t rc = LMTP_EOF;

    msg_destroy(ctx->msg);
    ctx->msg = NULL;

    resetsession(&ctx->session);
    res.statuscode = "221";
    res.dsncode    = "2.0.0";
    res.statusmsg  = "LMTP Service closing transmission channel.";
    lmtp_response(lmtp, &res);
    return rc;
}


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