Time out inactive peers after 3 minutes.

[doldaconnect.git] / daemon / fnet-dc.c

/*
 *  Dolda Connect - Modular multiuser Direct Connect-style client
 *  Copyright (C) 2004 Fredrik Tolf (fredrik@dolda2000.com)
 *  
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *  
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *  
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
*/
#include <stdlib.h>
#include <stdio.h>
#include <wchar.h>
#include <malloc.h>
#include <unistd.h>
#include <fcntl.h>
#include <string.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <alloca.h>
#include <wctype.h>
#include <time.h>
#include <errno.h>
#include <bzlib.h>
#include <zlib.h>
#include <sys/stat.h>

#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "filenet.h"
#include "log.h"
#include "module.h"
#include "utils.h"
#include "client.h"
#include "transfer.h"
#include "sysevents.h"
#include "net.h"
#include "tiger.h"

/*
 * The Direct Connect protocol is extremely ugly. Thus, this code must
 * also be a bit ugly in certain places. Please forgive me. =/
 *
 * This also means that there might be some pieces of the code that
 * look completely illogical to you, and you think that you may make
 * them much neater/better. However, in many cases it might just be
 * that it's required to cope with some oddity of the protocol, such
 * as the amazingly ugly delayed key response in the peer protocol.
 */

/* I assume this is the correct character set to use for DC,
 * considering it was developed without i18n support under Windows */
#define DCCHARSET "windows-1252"

#ifdef DCPP_MASQUERADE
/*
 * I honestly don't want to pretend being a client that I'm not, but
 * there are so many hubs that simply do not accept any clients
 * outside their whitelists, for no obvious reasons, so I feel that I
 * am left with little choice. Anyhow, as long as I actually support
 * all the features that my faked DC++ version does, there should be
 * very little harm done.
 */
#define DCIDTAG "++"
#define DCIDTAGV "0.674"
#define DCIDFULL "DC++ 0.674"
#else
#define DCIDTAG "Dolda"
#define DCIDTAGV VERSION
#define DCIDFULL "DoldaConnect " VERSION
#endif

#define PEER_CMD 0
#define PEER_STOP 1
#define PEER_TRNS 2
#define PEER_SYNC 3
#define PEER_TTHL 4

#define CPRS_NONE 0
#define CPRS_ZLIB 1

struct command
{
    char *name;
    void (*handler)(struct socket *sk, void *data, char *cmd, char *args);
    int stop;
};

struct qcommand
{
    struct qcommand *next;
    char *string;
};

struct dchub
{
    char *inbuf;
    size_t inbufdata, inbufsize;
    struct qcommand *queue;
    int extended;
    char *nativename;
    char *nativenick;
};

struct dcexppeer
{
    struct dcexppeer *next, *prev;
    char *nick;
    struct fnetnode *fn;
    struct timer *expire;
};

struct dcpeer
{
    struct dcpeer *next, *prev;
    struct socket *sk;
    struct fnetnode *fn;
    char *inbuf;
    size_t inbufdata, inbufsize;
    size_t curread, totalsize;
    int freeing;
    struct timer *timeout;
    struct qcommand *queue;
    struct transfer *transfer;
    int state;
    int ptclose;      /* Close after transfer is complete */
    int accepted;     /* If false, we connected, otherwise, we accepted */
    int extended;
    int direction;    /* Using the constants from transfer.h */
    int compress;
    int hascurpos, fetchingtthl, notthl;
    struct tigertreehash tth;
    void *cprsdata;
    char *key;
    char *nativename;
    char **supports;
    wchar_t *wcsname;
};

static struct fnet dcnet;
static struct transferiface dctransfer;
static struct socket *udpsock = NULL;
static struct socket *tcpsock = NULL;
static struct dcpeer *peers = NULL;
int numdcpeers = 0;
static struct dcexppeer *expected = NULL;
static char *hmlistname = NULL;
static char *xmllistname = NULL;
static char *xmlbz2listname = NULL;

static void peerconnect(struct socket *sk, int err, struct fnetnode *fn);
static void freedcpeer(struct dcpeer *peer);
static void transread(struct socket *sk, struct dcpeer *peer);
static void transerr(struct socket *sk, int err, struct dcpeer *peer);
static void transwrite(struct socket *sk, struct dcpeer *peer);
static void updatehmlist(void);
static void updatexmllist(void);
static void updatexmlbz2list(void);
static void requestfile(struct dcpeer *peer);

static int reservedchar(unsigned char c)
{
    return((c == 0) || (c == 5) || (c == 124) || (c == 96) || (c == 126) || (c == 36));
}

/* Oh, how I despise having to do this... */
static char *dcmakekey(char *lock)
{
    int i, len, offset;
    char *buf, *key;
    char save;
    
    buf = smalloc(strlen(lock));
    save = 5;
    len = 0;
    for(i = 0; lock[i]; i++)
    {
        buf[i] = lock[i] ^ save;
        buf[i] = ((buf[i] & 0x0F) << 4) | ((buf[i] & 0xF0) >> 4);
        save = lock[i];
        if((i != 0) && reservedchar(buf[i]))
            len += 10;
        else
            len++;
    }
    buf[0] ^= buf[i - 1];
    if(reservedchar(buf[0]))
        len += 10;
    else
        len++;
    key = smalloc(len + 1);
    offset = 0;
    for(i = 0; lock[i] != 0; i++)
    {
        if(reservedchar(buf[i]))
            offset += sprintf(key + offset, "/%%DCN%03i%%/", buf[i]);
        else
            key[offset++] = buf[i];
    }
    key[offset] = 0;
    free(buf);
    return(key);
}

static char *pathnmdc2adc(char *path)
{
    char *ret;
    size_t retsize, retdata;
    
    if(!strcmp(path, "files.xml") || !strcmp(path, "files.xml.bz2") || !strcmp(path, "MyList.DcLst"))
        return(sstrdup(path));
    ret = NULL;
    retsize = retdata = 0;
    addtobuf(ret, '/');
    for(; *path; path++)
    {
        if(*path == '\\')
            addtobuf(ret, '/');
        else
            addtobuf(ret, *path);
    }
    addtobuf(ret, 0);
    return(ret);
}

static int isdchash(struct hash *hash)
{
    if(wcscmp(hash->algo, L"TTH"))
        return(0);
    if(hash->len != 24)
        return(0);
    return(1);
}

static int supports(struct dcpeer *peer, char *cap)
{
    char **p;
    
    if(peer->supports == NULL)
        return(0);
    for(p = peer->supports; *p != NULL; p++)
    {
        if(!strcasecmp(*p, cap))
            return(1);
    }
    return(0);
}

static void endcompress(struct dcpeer *peer)
{
    if(peer->compress == CPRS_ZLIB)
    {
        deflateEnd(peer->cprsdata);
        free(peer->cprsdata);
    }
    peer->compress = CPRS_NONE;
}

static void initcompress(struct dcpeer *peer, int algo)
{
    int ret;
    
    endcompress(peer);
    peer->compress = algo;
    if(algo == CPRS_ZLIB)
    {
        peer->cprsdata = smalloc(sizeof(z_stream));
        memset(peer->cprsdata, 0, sizeof(z_stream));
        if((ret = deflateInit(peer->cprsdata, 3)) != Z_OK)
        {
            flog(LOG_CRIT, "Aiya! zlib refuses to init (%i)!", ret);
            abort();
        }
    }
}

static void unquote(wchar_t *in)
{
    wchar_t *p, *p2, nc;
    
    for(p = in; *p != L'\0'; p++)
    {
        if(*p == L'&')
        {
            for(p2 = p + 1; (*p2 != L'\0') && (*p2 != L';') && (*p2 != L'&'); p2++);
            if(*p2 == L'&')
                continue;
            if(*p2 == L'\0')
                return;
            *p2 = L'\0';
            nc = L'\0';
            if(!wcscmp(p + 1, L"amp"))
            {
                nc = L'&';
            } else if(p[1] == L'#') {
                nc = ucptowc(wcstol(p + 2, NULL, 10));
            }
            if(nc == L'\0')
            {
                *p2 = L';';
                p = p2;
                continue;
            }
            *p = nc;
            memmove(p + 1, p2 + 1, (wcslen(p2 + 1) + 1) * sizeof(wchar_t));
        }
    }
}

static void freeexppeer(struct dcexppeer *ep)
{
    if(ep->next != NULL)
        ep->next->prev = ep->prev;
    if(ep->prev != NULL)
        ep->prev->next = ep->next;
    if(ep == expected)
        expected = ep->next;
    free(ep->nick);
    putfnetnode(ep->fn);
    if(ep->expire != NULL)
        canceltimer(ep->expire);
    free(ep);
}

static void exppeerexpire(int cancelled, struct dcexppeer *ep)
{
    ep->expire = NULL;
    if(!cancelled)
        freeexppeer(ep);
}

static struct dcexppeer *expectpeer(char *nick, struct fnetnode *fn)
{
    struct dcexppeer *ep;
    
    ep = smalloc(sizeof(*ep));
    ep->nick = sstrdup(nick);
    getfnetnode(ep->fn = fn);
    ep->expire = timercallback(ntime() + 300, (void (*)(int, void *))exppeerexpire, ep);
    ep->next = expected;
    ep->prev = NULL;
    if(expected != NULL)
        expected->prev = ep;
    expected = ep;
    return(ep);
}

static struct qcommand *newqcmd(struct qcommand **queue, char *string)
{
    struct qcommand *new;
    
    while(*queue != NULL)
        queue = &(*queue)->next;
    new = smalloc(sizeof(*new));
    new->string = sstrdup(string);
    new->next = *queue;
    *queue = new;
    return(new);
}

static struct qcommand *ulqcmd(struct qcommand **queue)
{
    struct qcommand *qcmd;
    
    if((qcmd = *queue) == NULL)
        return(NULL);
    *queue = qcmd->next;
    return(qcmd);
}

static void freeqcmd(struct qcommand *qcmd)
{
    free(qcmd->string);
    free(qcmd);
}

static void hubrecvchat(struct socket *sk, struct fnetnode *fn, char *from, char *string)
{
    wchar_t *chat, *wfrom, *wpeer;
    char *p, *end;
    struct fnetpeer *peer;
    
    end = string + strlen(string);
    while((p = strchr(string, 13)) != NULL)
        memmove(p, p + 1, (end-- - p));
    if(from != NULL)
    {
        if((strlen(string) > strlen(from) + 2) && (*string == '<') && !memcmp(string + 1, from, strlen(from)) && (*(string + strlen(from) + 1) == '>'))
            string += strlen(from) + 2;
        if((wfrom = icmbstowcs(from, DCCHARSET)) == NULL)
            return;
        wpeer = swcsdup(wfrom);
    } else {
        wfrom = NULL;
        wpeer = NULL;
        if(*string == '<')
        {
            for(p = string + 1; *p; p++)
            {
                if((*p == ' ') || (*p == '>'))
                    break;
            }
            if(*p == '>')
            {
                *(p++) = 0;
                if(*p == ' ')
                    p++;
                if((wpeer = icmbstowcs(string + 1, DCCHARSET)) == NULL)
                    return;
                string = p;
            }
        }
        if(wpeer == NULL)
            wpeer = swcsdup(L"");
    }
    if((chat = icmbstowcs(string, DCCHARSET)) == NULL)
    {
        if(wfrom != NULL)
            free(wfrom);
        free(wpeer);
        return;
    }
    unquote(chat);
    if(wfrom != NULL)
    {
        if((peer = fnetfindpeer(fn, wfrom)) == NULL) /* Assume public chat */
            fnethandlechat(fn, 1, wfrom, wpeer, chat);
        else
            fnethandlechat(fn, 0, wfrom, wpeer, chat);
    } else {
        fnethandlechat(fn, 1, L"", wpeer, chat);
    }
    if(wfrom != NULL)
        free(wfrom);
    free(wpeer);
    free(chat);
}

static void peertimeout(int cancelled, struct dcpeer *peer)
{
    peer->timeout = NULL;
    if(cancelled)
        return;
    freedcpeer(peer);
}

static void sendadc(struct socket *sk, char *arg)
{
    char *buf;
    size_t bufsize, bufdata;
    
    buf = NULL;
    bufsize = bufdata = 0;
    addtobuf(buf, ' ');
    for(; *arg; arg++)
    {
        if(*arg == ' ')
        {
            bufcat(buf, "\\s", 2);
        } else if(*arg == '\n') {
            bufcat(buf, "\\n", 2);
        } else if(*arg == '\\') {
            bufcat(buf, "\\\\", 2);
        } else {
            addtobuf(buf, *arg);
        }
    }
    sockqueue(sk, buf, bufdata);
    free(buf);
}

static void sendadcf(struct socket *sk, char *arg, ...)
{
    char *buf;
    va_list args;
    
    va_start(args, arg);
    buf = vsprintf2(arg, args);
    va_end(args);
    if(buf == NULL)
        return;
    sendadc(sk, buf);
    free(buf);
}

static char **parseadc(char *args)
{
    char **retbuf;
    size_t retbufsize, retbufdata;
    char *buf;
    size_t bufsize, bufdata;
    int state;
    
    retbuf = NULL;
    buf = NULL;
    retbufsize = retbufdata = bufsize = bufdata = 0;
    state = 0;
    while(state != 3)
    {
        switch(state)
        {
        case 0:
            if(*args == 0)
                state = 3;
            else if(*args != ' ')
                state = 1;
            break;
        case 1:
            if((*args == ' ') || (*args == 0))
            {
                addtobuf(buf, 0);
                addtobuf(retbuf, buf);
                buf = NULL;
                bufsize = bufdata = 0;
                if(*args == 0)
                    state = 3;
            } else if(*args == '\\') {
                state = 2;
            } else {
                addtobuf(buf, *args);
            }
            args++;
            break;
        case 2:
            if(*args == 0)
            {
                if(buf != NULL)
                    free(buf);
                addtobuf(retbuf, NULL);
                freeparr(retbuf);
                return(NULL);
            } else if((*args == 's') || (*args == ' ')) {
                addtobuf(buf, ' ');
            } else if(*args == 'n') {
                addtobuf(buf, '\n');
            } else if(*args == '\\') {
                addtobuf(buf, '\\');
            }
            args++;
            state = 1;
            break;
        }
    }
    if(buf != NULL)
        free(buf);
    addtobuf(retbuf, NULL);
    return(retbuf);
}

/* Macros useful in command handlers */
#define skipspace(s) ({if(((s) = strchr((s), ' ')) == NULL) return; else (s)++;})
#define qstr(sk, str) sockqueue(sk, str, strlen(str))
#define qstrf(sk, strandargs...) \
do { \
    char *__buf__; \
    if((__buf__ = sprintf2(strandargs)) != NULL) { \
        sockqueue(sk, __buf__, strlen(__buf__)); \
        free(__buf__); \
    } \
} while(0)

static char *tr(char *str, char *trans)
{
    char *p;
    
    for(; *trans; trans += 2)
    {
        for(p = strchr(str, trans[0]); p != NULL; p = strchr(p, trans[0]))
            *p = trans[1];
    }
    return(str);
}

static char *getadcid(struct dcpeer *peer)
{
    char *buf;
    char *ret;
    int isfilelist;
    
    if(!wcscmp(peer->transfer->path, L"files.xml") || !wcscmp(peer->transfer->path, L"files.xml.bz2") || !wcscmp(peer->transfer->path, L"MyList.DcLst"))
        isfilelist = 1;
    if(!isfilelist && (peer->transfer->hash != NULL) && isdchash(peer->transfer->hash) && supports(peer, "tthf"))
    {
        buf = base32encode(peer->transfer->hash->buf, 24);
        ret = sprintf2("TTH/%.39s", buf);
        free(buf);
    } else {
        if((buf = icwcstombs(peer->transfer->path, "UTF-8")) == NULL)
            return(NULL);
        ret = pathnmdc2adc(buf);
        free(buf);
    }
    return(ret);
}


static int trresumecb(struct transfer *transfer, wchar_t *cmd, wchar_t *arg, struct dcpeer *peer)
{
    if(!wcscmp(cmd, L"resume"))
    {
        if(arg == NULL)
        {
            flog(LOG_WARNING, "filter returned no position for \"resume\" on transfer %i", transfer->id);
            freedcpeer(peer);
        } else {
            transfer->curpos = wcstol(arg, NULL, 10);
            peer->hascurpos = 1;
            requestfile(peer);
        }
        return(1);
    }
    return(0);
}

static void sendmynick(struct dcpeer *peer)
{
    struct dchub *hub;
    
    hub = (peer->fn == NULL)?NULL:(peer->fn->data);
    if(hub == NULL)
        qstrf(peer->sk, "$MyNick %s|", icswcstombs(confgetstr("cli", "defnick"), DCCHARSET, "DoldaConnectUser-IN"));
    else
        qstrf(peer->sk, "$MyNick %s|", hub->nativenick);
}

static void sendpeerlock(struct dcpeer *peer)
{
#ifdef DCPP_MASQUERADE
    qstrf(peer->sk, "$Lock EXTENDEDPROTOCOLABCABCABCABCABCABC Pk=DCPLUSPLUS0.674ABCABC|");
#else
    qstrf(peer->sk, "$Lock EXTENDEDPROTOCOLABCABCABCABCABCABC Pk=DOLDA%sABCABCABC|", VERSION);
#endif
}

static void sendsupports(struct dcpeer *peer)
{
#ifdef DCPP_MASQUERADE
    qstr(peer->sk, "$Supports MiniSlots XmlBZList ADCGet TTHL TTHF GetZBlock ZLIG |");
#else
    qstr(peer->sk, "$Supports MiniSlots XmlBZList ADCGet TTHL TTHF GetZBlock ZLIG|");
#endif
}

static void requestfile(struct dcpeer *peer)
{
    char *buf;
    
    if(peer->transfer->size == -1)
    {
        if((buf = icswcstombs(peer->transfer->path, DCCHARSET, NULL)) == NULL)
        {
            transferseterror(peer->transfer, TRNSE_NOTFOUND);
            freedcpeer(peer);
            return;
        }
        /* The transfer will be restarted later from
         * cmd_filelength when it detects that the sizes
         * don't match. */
        qstrf(peer->sk, "$Get %s$1|", buf);
        return;
    }
    if((peer->transfer->hash == NULL) && !peer->notthl)
    {
        if(supports(peer, "adcget") && supports(peer, "tthl"))
        {
            qstr(peer->sk, "$ADCGET");
            sendadc(peer->sk, "tthl");
            if((buf = getadcid(peer)) == NULL)
            {
                transferseterror(peer->transfer, TRNSE_NOTFOUND);
                freedcpeer(peer);
                return;
            }
            sendadc(peer->sk, buf);
            free(buf);
            sendadc(peer->sk, "0");
            sendadc(peer->sk, "-1");
            qstr(peer->sk, "|");
            peer->fetchingtthl = 1;
            return;
        }
    }
    if(!peer->hascurpos)
    {
        if(forkfilter(peer->transfer))
        {
            flog(LOG_WARNING, "could not fork filter for transfer %i: %s", peer->transfer->id, strerror(errno));
            freedcpeer(peer);
            return;
        }
        CBREG(peer->transfer, trans_filterout, (int (*)(struct transfer *, wchar_t *, wchar_t *, void *))trresumecb, NULL, peer);
        return;
    }
    if(supports(peer, "adcget"))
    {
        qstr(peer->sk, "$ADCGET");
        sendadc(peer->sk, "file");
        if((buf = getadcid(peer)) == NULL)
        {
            transferseterror(peer->transfer, TRNSE_NOTFOUND);
            freedcpeer(peer);
            return;
        }
        sendadc(peer->sk, buf);
        free(buf);
        sendadcf(peer->sk, "%i", peer->transfer->curpos);
        sendadcf(peer->sk, "%i", peer->transfer->size - peer->transfer->curpos);
        qstr(peer->sk, "|");
    } else if(supports(peer, "xmlbzlist")) {
        if((buf = icswcstombs(peer->transfer->path, "UTF-8", NULL)) == NULL)
        {
            transferseterror(peer->transfer, TRNSE_NOTFOUND);
            freedcpeer(peer);
            return;
        }
        qstrf(peer->sk, "$UGetBlock %i %i %s|", peer->transfer->curpos, peer->transfer->size - peer->transfer->curpos, buf);
    } else {
        if((buf = icswcstombs(peer->transfer->path, DCCHARSET, NULL)) == NULL)
        {
            transferseterror(peer->transfer, TRNSE_NOTFOUND);
            freedcpeer(peer);
            return;
        }
        qstrf(peer->sk, "$Get %s$%i|", buf, peer->transfer->curpos + 1);
    }
}

static void sendmyinfo(struct socket *sk, struct fnetnode *fn)
{
    struct dchub *hub;
    char *buf;
    struct fnetnode *cfn;
    int hn1, hn2, hn3;
    
    hub = fn->data;
    qstrf(sk, "$MyINFO $ALL %s ", hub->nativenick);
    buf = tr(icswcstombs(confgetstr("dc", "desc"), DCCHARSET, "Charset_conv_failure"), "$_|_");
    qstrf(sk, "%s", buf);
    hn1 = hn2 = hn3 = 0;
    for(cfn = fnetnodes; cfn != NULL; cfn = cfn->next)
    {
        if((cfn->state == FNN_EST) || (cfn->state == FNN_HS))
        {
            if(cfn->regstatus == FNNS_OP)
                hn3++;
            else if(cfn->regstatus == FNNS_REG)
                hn2++;
            else
                hn1++;
        }
    }
    qstrf(sk, "<%s V:%s,M:%c,H:%i/%i/%i,S:%i>",
          DCIDTAG,
          DCIDTAGV,
          (tcpsock == NULL)?'P':'A',
          hn1, hn2, hn3,
          confgetint("transfer", "slots")
          );
    qstrf(sk, "$ $");
    buf = tr(icswcstombs(confgetstr("dc", "speedstring"), DCCHARSET, "Charset_conv_failure"), "$_|_");
    qstrf(sk, "%s\x01$", buf);
    buf = tr(icswcstombs(confgetstr("dc", "email"), DCCHARSET, "Charset_conv_failure"), "$_|_");
    qstrf(sk, "%s$", buf);
    qstrf(sk, "%llu$|", sharesize);
}

static void hubhandleaction(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    
    hub = fn->data;
    if(!strcmp(cmd, "$Lock"))
    {
        qstrf(sk, "$ValidateNick %s|", hub->nativenick);
    } else if(!strcmp(cmd, "$Hello")) {
        if(fn->state == FNN_HS)
        {
            qstrf(sk, "$Version 1,0091|");
            qstrf(sk, "$GetNickList|");
            sendmyinfo(sk, fn);
            fnetsetstate(fn, FNN_EST);
        } else {
            qstrf(sk, "$GetINFO %s %s|", args, hub->nativenick);
        }
    }
}

static void cmd_lock(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    char *key;
    char *p;
    
    hub = fn->data;
    if(!strncmp(args, "EXTENDEDPROTOCOL", 16))
        hub->extended = 1;
    if((p = strchr(args, ' ')) != NULL)
        *(p++) = 0;
    if(hub->extended)
    {
#ifdef DCPP_MASQUERADE
        qstrf(sk, "$Supports UserCommand NoGetINFO NoHello UserIP2 TTHSearch GetZBlock |");
#else
        qstrf(sk, "$Supports UserCommand NoGetINFO NoHello UserIP2 TTHSearch GetZBlock|");
#endif
    }
    key = dcmakekey(args);
    qstrf(sk, "$Key %s|", key);
    free(key);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_hubname(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    wchar_t *buf;
    struct dchub *hub;
    
    hub = fn->data;
    if(hub->nativename == NULL)
        free(hub->nativename);
    hub->nativename = sstrdup(args);
    buf = icmbstowcs(args, DCCHARSET);
    fnetsetname(fn, (buf == NULL)?L"Hubname conv error":buf);
    if(buf != NULL)
        free(buf);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_hello(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    wchar_t *nick;
    struct dchub *hub;
    
    hub = fn->data;
    if((nick = icmbstowcs(args, DCCHARSET)) == NULL)
        return;
    if(strcmp(args, hub->nativenick) && (fnetfindpeer(fn, nick) == NULL))
        fnetaddpeer(fn, nick, nick);
    free(nick);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_quit(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    wchar_t *nick;
    struct fnetpeer *peer;
    struct dchub *hub;
    
    hub = fn->data;
    if((nick = icmbstowcs(args, DCCHARSET)) == NULL)
        return;
    if((peer = fnetfindpeer(fn, nick)) != NULL)
        fnetdelpeer(peer);
    free(nick);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_nicklist(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    char *p;
    wchar_t *buf;
    struct fnetpeer *peer, *npeer;
    
    hub = fn->data;
    for(peer = fn->peers; peer != NULL; peer = peer->next)
        peer->flags.b.delete = 1;
    while((p = strstr(args, "$$")) != NULL)
    {
        *p = 0;
        if((buf = icmbstowcs(args, DCCHARSET)) != NULL)
        {
            if((peer = fnetfindpeer(fn, buf)) == NULL)
                peer = fnetaddpeer(fn, buf, buf);
            else
                peer->flags.b.delete = 0;
            free(buf);
            qstrf(sk, "$GetINFO %s %s|", args, hub->nativenick);
        }
        args = p + 2;
    }
    for(peer = fn->peers; peer != NULL; peer = npeer)
    {
        npeer = peer->next;
        if(peer->flags.b.delete)
            fnetdelpeer(peer);
    }
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_oplist(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    char *p;
    wchar_t *buf;
    struct fnetpeer *peer;
    
    hub = fn->data;
    for(peer = fn->peers; peer != NULL; peer = peer->next)
        peer->flags.b.op = 0;
    while((p = strstr(args, "$$")) != NULL)
    {
        *p = 0;
        if((buf = icmbstowcs(args, DCCHARSET)) != NULL)
        {
            if((peer = fnetfindpeer(fn, buf)) != NULL)
                peer->flags.b.op = 1;
            free(buf);
        }
        args = p + 2;
    }
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_myinfo(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    char *p, *p2;
    wchar_t *buf, *wp, *wp2;
    wchar_t abuf[10];
    struct fnetpeer *peer;
    struct dchub *hub;
    
    hub = fn->data;
    p = args;
    if(strncmp(p, "$ALL ", 5))
        return;
    p += 5;
    if((p2 = strchr(p, ' ')) == NULL)
        return;
    *p2 = 0;
    if((buf = icmbstowcs(p, DCCHARSET)) == NULL)
        return;
    if((peer = fnetfindpeer(fn, buf)) == NULL)
        peer = fnetaddpeer(fn, buf, buf);
    free(buf);
    p = p2 + 1;
    if((p2 = strstr(p, "$ $")) == NULL)
        return;
    *p2 = 0;
    if((buf = icmbstowcs(p, DCCHARSET)) == NULL)
        return;
    if((wcslen(buf) > 0) && (buf[wcslen(buf) - 1] == L'>') && ((wp = wcschr(buf, L'<')) != NULL))
    {
        buf[wcslen(buf) - 1] = L'\0';
        *(wp++) = L'\0';
        if((wp2 = wcschr(wp, L' ')) != NULL)
        {
            *(wp2++) = L'\0';
            fnetpeersetstr(peer, L"dc-client", wp);
            wp = wp2;
            do
            {
                if((wp2 = wcschr(wp, L',')) != NULL)
                    *(wp2++) = L'\0';
                if(wp[1] != L':')
                    continue;
                swprintf(abuf, 10, L"dc-tag-%lc", wp[0]);
                fnetpeersetstr(peer, abuf, wp + 2);
                wp = wp2;
            } while(wp2 != NULL);
        }
    }
    fnetpeersetstr(peer, L"descr", buf);
    free(buf);
    p = p2 + 3;
    if((p2 = strchr(p, '$')) == NULL)
        return;
    *(p2 - 1) = 0;
    if((buf = icmbstowcs(p, DCCHARSET)) == NULL)
        return;
    fnetpeersetstr(peer, L"dc-speed", buf);
    free(buf);
    p = p2 + 1;
    if((p2 = strchr(p, '$')) == NULL)
        return;
    *p2 = 0;
    if((buf = icmbstowcs(p, DCCHARSET)) == NULL)
        return;
    fnetpeersetstr(peer, L"email", buf);
    free(buf);
    p = p2 + 1;
    if(strlen(p) < 1)
        return;
    fnetpeersetlnum(peer, L"share", strtoll(p, NULL, 10));
    hubhandleaction(sk, fn, cmd, args);
}

/* I do not implement the fully in that I do not disconnect from the
 * old hub. I do this since I believe that if the hub owner really
 * wants to get rid of us, then it is his responsibility to disconnect
 * us. */
static void cmd_forcemove(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    struct fnetnode *newfn;
    int freeargs;
    
    hub = fn->data;
    if(strchr(args, ':') == NULL)
    {
        args = strcpy(smalloc(strlen(args) + 5), args);
        strcat(args, ":411");
        freeargs = 1;
    } else {
        freeargs = 0;
    }
    if((newfn = fnetinitconnect(L"dc", args, NULL)) != NULL)
    {
        linkfnetnode(newfn);
        putfnetnode(newfn);
    }
    hubhandleaction(sk, fn, cmd, args);
    if(freeargs)
        free(args);
}

static char *getdcpath(struct sharecache *node, size_t *retlen)
{
    char *buf, *buf2;
    size_t len, len2;
    
    if(node->parent == NULL)
        return(NULL);
    if(node->parent == shareroot)
    {
        if((buf = icwcstombs(node->name, DCCHARSET)) == NULL)
            return(NULL);
        if(retlen != NULL)
            *retlen = strlen(buf);
        return(buf);
    } else {
        if((buf2 = icwcstombs(node->name, DCCHARSET)) == NULL)
            return(NULL);
        if((buf = getdcpath(node->parent, &len)) == NULL)
        {
            free(buf2);
            return(NULL);
        }
        len2 = strlen(buf2);
        buf = srealloc(buf, len + 1 + len2 + 1);
        buf[len++] = '\\';
        strcpy(buf + len, buf2);
        buf[len + len2] = 0;
        free(buf2);
        if(retlen != NULL)
            *retlen = len + len2;
        return(buf);
    }
}

/*
 * This is the main share searching function for Direct Connect
 * peers. Feel free to optimize it if you feel the need for it. I
 * haven't ever seen it take any noticable CPU time anyway, so I
 * haven't felt that need.
 *
 * It may feel dubious to just return the directory when all terms are
 * satisfied rather than all the files in it, but it really benefits
 * everyone: Less cycles used for us, less UDP squelching for active
 * searchers, and less bandwidth waste for hubs when serving passive
 * searchers.
 */
static void cmd_search(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    int i, done;
    struct dchub *hub;
    char *p, *p2;
    char *prefix, *infix, *postfix, *buf, *buf2;
    struct socket *dsk;
    struct sockaddr_in addr;
    struct sharecache *node;
    int minsize, maxsize;
    int dotth, buflen;
    int termnum, satisfied, skipcheck;
    int level, tersat[32];
    wchar_t *terms[32];
    char hashtth[24];
    
    hub = fn->data;
    if((p = strchr(args, ' ')) == NULL)
        return;
    *(p++) = 0;
    
    memset(terms, 0, sizeof(terms));
    prefix = infix = postfix = NULL;
    dsk = NULL;
    dotth = 0;
    
    if(!strncmp(args, "Hub:", 4))
    {
        if(!strcmp(cmd, "$MultiSearch"))
            goto out;
        if(!strcmp(args + 4, hub->nativenick))
            goto out;
        prefix = sprintf2("$SR %s ", hub->nativenick);
        infix = sprintf2(" %i/%i\005", slotsleft(), confgetint("transfer", "slots"));
        postfix = sprintf2(" (%s)\005%s|", formataddress(fn->sk->remote, fn->sk->remotelen), args + 4);
        dsk = sk;
        getsock(dsk);
    } else {
        if((p2 = strchr(args, ':')) == NULL)
            goto out;
        *(p2++) = 0;
        addr.sin_family = AF_INET;
        if(!inet_aton(args, &addr.sin_addr))
            goto out;
        addr.sin_port = htons(atoi(p2));
        prefix = sprintf2("$SR %s ", hub->nativenick);
        infix = sprintf2(" %i/%i\005", slotsleft(), confgetint("transfer", "slots"));
        postfix = sprintf2(" (%s)|", formataddress(fn->sk->remote, fn->sk->remotelen));
        netdgramconn(dsk = netdupsock(udpsock), (struct sockaddr *)&addr, sizeof(addr));
    }
    
    minsize = maxsize = -1;
    if(*p == 0)
        goto out;
    if(*(p++) == 'T')
        minsize = 0;
    if(*(p++) != '?')
        goto out;
    if(*p == 0)
        goto out;
    if((*(p++) == 'T') && (minsize == 0))
    {
        maxsize = 0;
        minsize = -1;
    }
    if(*(p++) != '?')
        goto out;
    if((p2 = strchr(p, '?')) == NULL)
        goto out;
    *(p2++) = 0;
    if(minsize == 0)
        minsize = atoi(p);
    if(maxsize == 0)
        maxsize = atoi(p);
    p = p2 + 1;
    if(*(p++) != '?')
        goto out;
    termnum = 0;
    p2 = p;
    done = 0;
    while(!done)
    {
        if((*p2 == 0) || (*p2 == '$'))
        {
            if(*p2 == 0)
                done = 1;
            else
                *p2 = 0;
            if(*p)
            {
                if(!dotth && !strncmp(p, "TTH:", 4))
                {
                    dotth = 1;
                    if((buf = base32decode(p + 4, &buflen)) == NULL)
                        goto out;
                    if(buflen != 24)
                        goto out;
                    memcpy(hashtth, buf, 24);
                    free(buf);
                } else {
                    if((terms[termnum] = icmbstowcs(p, DCCHARSET)) != NULL)
                        termnum++;
                }
            }
            p = p2 + 1;
            if(termnum == 32)
                break;
        }
        p2++;
    }
    
    node = shareroot->child;
    level = 0;
    for(i = 0; i < termnum; i++)
        tersat[i] = -1;
    satisfied = 0;
    while(1)
    {
        skipcheck = 0;
        if(node->f.b.type == FILE_REG)
        {
            if((minsize >= 0) && (node->size < minsize))
                skipcheck = 1;
            if((maxsize >= 0) && (node->size > maxsize))
                skipcheck = 1;
        }
        if(!skipcheck && dotth)
        {
            if((node->f.b.type != FILE_REG) || (node->f.b.hastth && memcmp(hashtth, node->hashtth, 24)))
                skipcheck = 1;
        }
        if(!skipcheck)
        {
            for(i = 0; i < termnum; i++)
            {
                if(tersat[i] >= 0)
                    continue;
                if(wcsexists(node->name, terms[i]))
                {
                    tersat[i] = level;
                    satisfied++;
                } else if(node->child == NULL) {
                    break;
                }
            }
        }
        if(!skipcheck && (satisfied == termnum))
        {
            if((buf = getdcpath(node, NULL)) != NULL)
            {
                if(node->f.b.hastth)
                {
                    buf2 = base32encode(node->hashtth, 24);
                    qstrf(dsk, "%s%s\005%i%sTTH:%.39s%s", prefix, buf, node->size, infix, buf2, postfix);
                    free(buf2);
                } else {
                    qstrf(dsk, "%s%s\005%i%s%s%s", prefix, buf, node->size, infix, hub->nativename, postfix);
                }
                free(buf);
            }
        }
        if((!skipcheck && (satisfied == termnum)) || (node->child == NULL))
        {
            while(node->next == NULL)
            {
                if((node = node->parent) == shareroot)
                    break;
                level--;
            }
            if(node == shareroot)
                break;
            for(i = 0; i < termnum; i++)
            {
                if(tersat[i] >= level)
                {
                    tersat[i] = -1;
                    satisfied--;
                }
            }
            node = node->next;
        } else {
            node = node->child;
            level++;
        }
    }

    hubhandleaction(sk, fn, cmd, args);
    
 out:
    if(dsk != NULL)
        putsock(dsk);
    if(prefix != NULL)
        free(prefix);
    if(infix != NULL)
        free(infix);
    if(postfix != NULL)
        free(postfix);
    for(i = 0; (i < 32) && (terms[i] != NULL); i++)
        free(terms[i]);
}

static void cmd_connecttome(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    char *p;
    struct dchub *hub;
    struct socket *newsk;
    struct sockaddr_in addr;
    
    hub = fn->data;
    if((p = strchr(args, ' ')) == NULL)
        return;
    *(p++) = 0;
    if(strcmp(args, hub->nativenick))
        return;
    addr.sin_family = AF_INET;
    args = p;
    if((p = strchr(args, ':')) == NULL)
        return;
    *(p++) = 0;
    addr.sin_port = htons(atoi(p));
    if(!inet_aton(args, &addr.sin_addr))
        return;
    newsk = netcsconn((struct sockaddr *)&addr, sizeof(addr), (void (*)(struct socket *, int, void *))peerconnect, fn);
    getfnetnode(fn);
    hubhandleaction(sk, fn, cmd, args);
}

static void sendctm(struct socket *sk, char *nick)
{
    struct sockaddr *addr;
    socklen_t addrlen;
    
    if(tcpsock == NULL)
        return;
    if(sockgetremotename(tcpsock, &addr, &addrlen) < 0)
        return;
    if(addr->sa_family == AF_INET)
        qstrf(sk, "$ConnectToMe %s %s|", nick, formataddress(addr, addrlen));
    else
        flog(LOG_WARNING, "Direct Connect TCP socket is suddenly not AF_INET, but %i", addr->sa_family);
    free(addr);
}

static void cmd_revconnecttome(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    char *p;
    
    hub = fn->data;
    if((p = strchr(args, ' ')) == NULL)
        return;
    *(p++) = 0;
    if(strcmp(p, hub->nativenick))
        return;
    sendctm(sk, args);
    expectpeer(args, fn);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_getnetinfo(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    struct fnetnode *node;
    int numhubs;
    
    hub = fn->data;
    numhubs = 0;
    for(node = fnetnodes; node != NULL; node = node->next)
    {
        if(node->state == FNN_EST)
            numhubs++;
    }
    qstrf(sk, "$NetInfo %i$%i$%c$0|", confgetint("transfer", "slots"), numhubs, (tcpsock == NULL)?'P':'A');
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_to(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    char *p, *p2;
    
    hub = fn->data;
    p = args;
    if((p2 = strchr(p, ' ')) == NULL)
        return;
    *(p2++) = 0;
    p = p2;
    if((p2 = strchr(p, ' ')) == NULL)
        return;
    *(p2++) = 0;
    if(strcmp(p, "From:"))
        return;
    p = p2;
    if((p2 = strstr(p, " $")) == NULL)
        return;
    *p2 = 0;
    p2 += 2;
    hubrecvchat(fn->sk, fn, p, p2);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_sr(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    char *p, *p2, *buf;
    char *nick, *filename, *hubname;
    int size, slots;
    size_t buflen;
    struct srchres *sr;
    wchar_t *wnick, *wfile;
    
    hub = fn->data;
    nick = p = args;
    if((p2 = strchr(p, ' ')) == NULL)
        return;
    *p2 = 0;
    p = p2 + 1;
    filename = p;
    if((p2 = strchr(p, 5)) == NULL)
        return;
    *p2 = 0;
    p = p2 + 1;
    if((p2 = strchr(p, ' ')) == NULL)
        return;
    *p2 = 0;
    size = atoi(p);
    p = p2 + 1;
    if((p2 = strchr(p, '/')) == NULL)
        return;
    *p2 = 0;
    slots = atoi(p);
    p = p2 + 1;
    if((p2 = strchr(p, 5)) == NULL)
        return;
    p = p2 + 1;
    hubname = p;
    if((p2 = strstr(p, " (")) == NULL)
        return;
    *p2 = 0;
    if((wnick = icmbstowcs(nick, DCCHARSET)) == NULL)
        return;
    if((wfile = icmbstowcs(filename, DCCHARSET)) == NULL)
    {
        free(wnick);
        return;
    }
    sr = newsrchres(&dcnet, wfile, wnick);
    if(sr->peernick != NULL)
        free(sr->peernick);
    sr->peernick = swcsdup(wnick);
    sr->size = size;
    sr->slots = slots;
    free(wfile);
    free(wnick);
    if(!strncmp(hubname, "TTH:", 4))
    {
        if((buf = base32decode(hubname + 4, &buflen)) != NULL)
        {
            if(buflen == 24)
                sr->hash = newhash(L"TTH", 24, buf);
            free(buf);
        }
    }
    getfnetnode(sr->fn = fn);
    submitsrchres(sr);
    freesrchres(sr);
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_usercommand(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    /* Do nothing for now. */
}

static void cmd_getpass(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    struct wcspair *arg;
    char *mbspw;
    
    hub = fn->data;
    for(arg = fn->args; arg != NULL; arg = arg->next)
    {
        if(!wcscmp(arg->key, L"password"))
            break;
    }
    if((arg == NULL) || ((mbspw = icwcstombs(arg->val, DCCHARSET)) == NULL))
    {
        killfnetnode(fn);
        return;
    }
    qstrf(sk, "$MyPass %s|", mbspw);
    free(mbspw);
    fn->regstatus = FNNS_REG;
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_logedin(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    
    hub = fn->data;
    fn->regstatus = FNNS_OP;
    hubhandleaction(sk, fn, cmd, args);
}

static void cmd_mynick(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    struct dcexppeer *expect;

    if(peer->nativename != NULL)
        free(peer->nativename);
    peer->nativename = sstrdup(args);
    if(peer->wcsname != NULL)
        free(peer->wcsname);
    if((peer->wcsname = icmbstowcs(peer->nativename, DCCHARSET)) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if(peer->accepted)
    {
        for(expect = expected; expect != NULL; expect = expect->next)
        {
            if(!strcmp(expect->nick, args))
                break;
        }
        if(expect == NULL)
        {
            peer->fn = NULL;
        } else {
            peer->fn = expect->fn;
            getfnetnode(peer->fn);
            freeexppeer(expect);
        }
    }
}

static void cmd_direction(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    char *p;
    int mydir;
    struct transfer *transfer;
    
    if((p = strchr(args, ' ')) == NULL)
        return;
    *p = 0;
    if(!strcmp(args, "Upload"))
        mydir = TRNSD_DOWN;
    if(!strcmp(args, "Download"))
        mydir = TRNSD_UP;
    if(peer->accepted)
    {
        if((peer->transfer == NULL) || (mydir != peer->direction))
        {
            freedcpeer(peer);
            return;
        }
        if(peer->direction == TRNSD_DOWN)
            requestfile(peer);
    } else {
        if(peer->wcsname == NULL)
        {
            freedcpeer(peer);
            return;
        }
        peer->direction = mydir;
        if(peer->direction == TRNSD_UP)
        {
            transfer = newupload(peer->fn, &dcnet, peer->wcsname, &dctransfer, peer);
        } else {
            if((transfer = finddownload(peer->wcsname)) == NULL)
            {
                freedcpeer(peer);
                return;
            }
            transferattach(transfer, &dctransfer, peer);
            transfersetstate(transfer, TRNS_HS);
        }
        transfersetnick(transfer, peer->wcsname);
        peer->transfer = transfer;
        if(peer->extended)
            sendsupports(peer);
        qstrf(sk, "$Direction %s %i|", (peer->direction == TRNSD_UP)?"Upload":"Download", rand() % 10000);
        if(peer->key != NULL)
            qstrf(sk, "$Key %s|", peer->key);
        if(peer->direction == TRNSD_DOWN)
            requestfile(peer);
    }
}

static void cmd_peerlock(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    char *p, *key;
    struct transfer *transfer;
    
    if((p = strchr(args, ' ')) == NULL)
        return;
    *p = 0;
    if(!strncmp(args, "EXTENDEDPROTOCOL", 16))
        peer->extended = 1;
    key = dcmakekey(args);
    if(peer->accepted)
    {
        if(peer->wcsname == NULL)
        {
            freedcpeer(peer);
            return;
        }
        sendmynick(peer);
        sendpeerlock(peer);
        if(peer->extended)
            sendsupports(peer);
        if((transfer = finddownload(peer->wcsname)) == NULL)
        {
            peer->direction = TRNSD_UP;
            transfer = newupload(peer->fn, &dcnet, peer->wcsname, &dctransfer, peer);
        } else {
            peer->direction = TRNSD_DOWN;
            transferattach(transfer, &dctransfer, peer);
            transfersetstate(transfer, TRNS_HS);
        }
        transfersetnick(transfer, peer->wcsname);
        peer->transfer = transfer;
        qstrf(sk, "$Direction %s %i|", (peer->direction == TRNSD_UP)?"Upload":"Download", rand() % 10000);
        qstrf(sk, "$Key %s|", key);
    } else {
        if(peer->key != NULL)
            free(peer->key);
        peer->key = key;
    }
}

static void cmd_key(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    /* NOP */
}

static void startdl(struct dcpeer *peer)
{
    if(peer->timeout != NULL)
        canceltimer(peer->timeout);
    peer->state = PEER_TRNS;
    transferstartdl(peer->transfer, peer->sk);
    peer->sk->readcb = (void (*)(struct socket *, void *))transread;
    peer->sk->errcb = (void (*)(struct socket *, int, void *))transerr;
}

static void startul(struct dcpeer *peer)
{
    if(peer->timeout != NULL)
        canceltimer(peer->timeout);
    peer->state = PEER_TRNS;
    transferstartul(peer->transfer, peer->sk);
    peer->sk->writecb = (void (*)(struct socket *, void *))transwrite;
}

static void cmd_filelength(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    int size;
    struct transfer *transfer;
    
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    size = atoi(args);
    if(peer->transfer->size != size)
    {
        transfersetsize(peer->transfer, size);
        transfer = peer->transfer;
        freedcpeer(peer);
        trytransferbypeer(transfer->fnet, transfer->peerid);
        return;
    }
    startdl(peer);
    qstr(peer->sk, "$Send|");
}

static void cmd_error(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    if(peer->fetchingtthl)
    {
        peer->fetchingtthl = 0;
        peer->notthl = 1;
        requestfile(peer);
        return;
    }
    if((peer->transfer != NULL) && (peer->transfer->dir == TRNSD_DOWN))
    {
        transferseterror(peer->transfer, TRNSE_NOTFOUND);
        resettransfer(peer->transfer);
        return;
    }
    freedcpeer(peer);
}

static void cmd_maxedout(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    if((peer->transfer != NULL) && (peer->transfer->dir == TRNSD_DOWN))
    {
        transferseterror(peer->transfer, TRNSE_NOSLOTS);
        resettransfer(peer->transfer);
        return;
    }
    freedcpeer(peer);
}

static struct
{
    char *name;
    char **file;
    void (*func)(void);
} lists[] =
{
    {"MyList.DcLst", &hmlistname, updatehmlist},
    {"files.xml", &xmllistname, updatexmllist},
    {"files.xml.bz2", &xmlbz2listname, updatexmlbz2list},
    {NULL, NULL}
};

static int openfilelist(char *name)
{
    int i, fd;
    int errnobak;
    
    for(i = 0; lists[i].name != NULL; i++)
    {
        if(!strcmp(name, lists[i].name))
            break;
    }
    errno = 0;
    if(lists[i].name == NULL)
        return(-1);
    fd = -1;
    if((*lists[i].file == NULL) || ((fd = open(*lists[i].file, O_RDONLY)) < 0))
        lists[i].func();
    if((fd < 0) && ((*lists[i].file == NULL) || ((fd = open(*lists[i].file, O_RDONLY)) < 0)))
    {
        errnobak = errno;
        flog(LOG_ERR, "could not open filelist tempfile: %s", strerror(errno));
        errno = errnobak;
        return(-1);
    }
    return(fd);
}

static struct sharecache *findbytth(char *tth32)
{
    char *buf;
    size_t buflen;
    struct sharecache *node;
    
    if((buf = base32decode(tth32, &buflen)) == NULL)
        return(NULL);
    if(buflen != 24)
    {
        free(buf);
        return(NULL);
    }
    for(node = shareroot->child; node != NULL; node = nextscnode(node))
    {
        if(node->f.b.hastth && !memcmp(node->hashtth, buf, 24))
            break;
    }
    free(buf);
    return(node);
}

static struct sharecache *resdcpath(char *path, char *charset, char sep)
{
    struct sharecache *node;
    char *p, *p2;

    node = shareroot;
    p = path;
    while(p != NULL)
    {
        if((p2 = strchr(p, sep)) != NULL)
            *(p2++) = 0;
        if((node = findcache(node, icsmbstowcs(p, charset, L""))) == NULL)
            return(NULL);
        p = p2;
    }
    return(node);
}

static void cmd_get(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    int offset;
    char *p, *buf;
    wchar_t *buf2;
    struct sharecache *node;
    struct socket *lesk;
    int fd;
    struct stat sb;
    
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if((p = strchr(args, '$')) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    *(p++) = 0;
    if((offset = (atoi(p) - 1)) < 0)
    {
        freedcpeer(peer);
        return;
    }
    if(((fd = openfilelist(args)) < 0) && (errno != 0))
    {
        qstr(sk, "$Error Could not send file list|");
        freedcpeer(peer);
        return;
    } else if(fd >= 0) {
        if((buf2 = icsmbstowcs(args, DCCHARSET, NULL)) != NULL)
            transfersetpath(peer->transfer, buf2);
        peer->transfer->flags.b.minislot = 1;
    }
    if(fd < 0)
    {
        if((node = resdcpath(args, DCCHARSET, '\\')) == NULL)
        {
            qstrf(sk, "$Error File not in share|");
            freedcpeer(peer);
            return;
        }
        if((fd = opensharecache(node)) < 0)
        {
            qstrf(sk, "$Error %s|", strerror(errno));
            freedcpeer(peer);
            return;
        }
        buf = getfspath(node);
        if((buf2 = icsmbstowcs(buf, NULL, NULL)) == NULL)
            flog(LOG_WARNING, "could not convert native path into a wcs (%s): %s", buf, strerror(errno));
        else
            transfersetpath(peer->transfer, buf2);
        free(buf);
    }
    if(fstat(fd, &sb) < 0)
    {
        close(fd);
        flog(LOG_WARNING, "could not stat file %ls: %s", node->name, strerror(errno));
        qstrf(sk, "$Error|");
        freedcpeer(peer);
        return;
    }
    if(sb.st_size < 65536)
        peer->transfer->flags.b.minislot = 1;
    if(!peer->transfer->flags.b.minislot && (slotsleft() < 1)) {
        qstr(sk, "$MaxedOut|");
        freedcpeer(peer);
        return;
    }
    if((offset != 0) && (lseek(fd, offset, SEEK_SET) < 0))
    {
        close(fd);
        qstrf(sk, "$Error Offset out of range|");
        freedcpeer(peer);
        return;
    }
    lesk = wrapsock(fd);
    transferprepul(peer->transfer, sb.st_size, offset, -1, lesk);
    putsock(lesk);
    qstrf(sk, "$FileLength %i|", peer->transfer->size);
}

static void cmd_send(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if(peer->transfer->localend == NULL)
    {
        freedcpeer(peer);
        return;
    }
    peer->ptclose = 1;
    startul(peer);
}

static void cmd_supports(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    int i;
    char *p, *p2;
    char **arr;
    size_t arrsize, arrdata;
    
    if(peer->supports != NULL)
    {
        for(i = 0; peer->supports[i] != NULL; i++)
            free(peer->supports[i]);
        free(peer->supports);
    }
    arr = NULL;
    arrsize = arrdata = 0;
    p = args;
    do
    {
        if((p2 = strchr(p, ' ')) != NULL)
            *(p2++) = 0;
        if(*p == 0)
            continue;
        addtobuf(arr, sstrdup(p));
    } while((p = p2) != NULL);
    addtobuf(arr, NULL);
    peer->supports = arr;
}

static void cmd_getblock(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    int fd;
    char *p, *p2;
    int start, numbytes;
    char *charset, *buf;
    wchar_t *buf2;
    struct sharecache *node;
    struct stat sb;
    struct socket *lesk;
    
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    p = args;
    if((p2 = strchr(p, ' ')) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    *(p2++) = 0;
    start = atoi(p);
    p = p2;
    if((p2 = strchr(p, ' ')) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    *(p2++) = 0;
    numbytes = atoi(p);
    p = p2;
    if(!strcmp(cmd, "$UGetBlock") || !strcmp(cmd, "$UGetZBlock"))
        charset = "UTF-8";
    else
        charset = DCCHARSET;
    if(!strcmp(cmd, "$GetZBlock") || !strcmp(cmd, "$UGetZBlock"))
        initcompress(peer, CPRS_ZLIB);
    if(((fd = openfilelist(p)) < 0) && (errno != 0))
    {
        qstr(sk, "$Error Could not send file list|");
        return;
    } else if(fd >= 0) {
        if((buf2 = icsmbstowcs(args, charset, NULL)) != NULL)
            transfersetpath(peer->transfer, buf2);
        peer->transfer->flags.b.minislot = 1;
    }
    if(fd < 0)
    {
        if((node = resdcpath(p, charset, '\\')) == NULL)
        {
            qstr(sk, "$Error File not in cache|");
            return;
        }
        if((fd = opensharecache(node)) < 0)
        {
            qstrf(sk, "$Error %s|", strerror(errno));
            return;
        }
        buf = getfspath(node);
        if((buf2 = icsmbstowcs(buf, NULL, NULL)) == NULL)
            flog(LOG_WARNING, "could not convert native path into a wcs (%s): %s", buf, strerror(errno));
        else
            transfersetpath(peer->transfer, buf2);
        free(buf);
    }
    if(fstat(fd, &sb) < 0)
    {
        close(fd);
        flog(LOG_WARNING, "could not stat file %ls: %s", node->name, strerror(errno));
        qstr(sk, "$Error|");
        return;
    }
    if(sb.st_size < 65536)
        peer->transfer->flags.b.minislot = 1;
    if(!peer->transfer->flags.b.minislot && (slotsleft() < 1)) {
        qstr(sk, "$MaxedOut|");
        return;
    }
    if((start != 0) && ((start >= sb.st_size) || (lseek(fd, start, SEEK_SET) < 0)))
    {
        close(fd);
        qstr(sk, "$Error Offset out of range|");
        return;
    }
    if((numbytes < 0) || (start + numbytes > sb.st_size))
        numbytes = sb.st_size - start;
    lesk = wrapsock(fd);
    transferprepul(peer->transfer, sb.st_size, start, start + numbytes, lesk);
    putsock(lesk);
    qstrf(sk, "$Sending %i|", numbytes);
    startul(peer);
}

static void cmd_adcget(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    int i;
    char **argv, *buf;
    int start, numbytes;
    struct sharecache *node;
    struct stat sb;
    struct socket *lesk;
    wchar_t *wbuf;
    int fd;
    
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if((argv = parseadc(args)) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if(parrlen(argv) < 4)
    {
        freedcpeer(peer);
        goto out;
    }
    start = atoi(argv[2]);
    numbytes = atoi(argv[3]);
    node = NULL;
    fd = -1;
    if(((fd = openfilelist(argv[1])) < 0) && (errno != 0))
    {
        qstr(sk, "$Error Could not send file list|");
        goto out;
    } else if(fd >= 0) {
        if((wbuf = icsmbstowcs(argv[1], "UTF-8", NULL)) != NULL)
            transfersetpath(peer->transfer, wbuf);
        peer->transfer->flags.b.minislot = 1;
    }
    if(fd < 0)
    {
        if(!strncmp(argv[1], "TTH/", 4))
        {
            if((node = findbytth(argv[1] + 4)) == NULL)
            {
                qstr(sk, "$Error File not in cache|");
                goto out;
            }
        } else {
            if((node = resdcpath((argv[1][0] == '/')?(argv[1] + 1):(argv[1]), "UTF-8", '/')) == NULL)
            {
                qstr(sk, "$Error File not in cache|");
                goto out;
            }
        }
        if((fd = opensharecache(node)) < 0)
        {
            qstrf(sk, "$Error %s|", strerror(errno));
            goto out;
        }
        buf = getfspath(node);
        if((wbuf = icsmbstowcs(buf, NULL, NULL)) == NULL)
            flog(LOG_WARNING, "could not convert native path into a wcs (%s): %s", buf, strerror(errno));
        else
            transfersetpath(peer->transfer, wbuf);
        free(buf);
    }
    if(!strcmp(argv[0], "file"))
    {
        for(i = 4; argv[i] != NULL; i++)
        {
            if(!strcmp(argv[i], "ZL1"))
                initcompress(peer, CPRS_ZLIB);
        }
        if(fstat(fd, &sb) < 0)
        {
            flog(LOG_WARNING, "could not stat file %ls: %s", node->name, strerror(errno));
            qstr(sk, "$Error|");
            goto out;
        }
        if(sb.st_size < 65536)
            peer->transfer->flags.b.minislot = 1;
        if(!peer->transfer->flags.b.minislot && (slotsleft() < 1)) {
            qstr(sk, "$MaxedOut|");
            goto out;
        }
        if((start != 0) && ((start >= sb.st_size) || (lseek(fd, start, SEEK_SET) < 0)))
        {
            qstr(sk, "$Error Offset out of range|");
            goto out;
        }
        if((numbytes < 0) || (start + numbytes > sb.st_size))
            numbytes = sb.st_size - start;
        lesk = wrapsock(fd);
        transferprepul(peer->transfer, sb.st_size, start, start + numbytes, lesk);
        putsock(lesk);
        fd = -1;
        qstr(sk, "$ADCSND");
        sendadc(sk, "file");
        sendadc(sk, argv[1]);
        sendadcf(sk, "%i", start);
        sendadcf(sk, "%i", numbytes);
        if(peer->compress == CPRS_ZLIB)
            sendadc(sk, "ZL1");
        qstr(sk, "|");
        startul(peer);
    } else if(!strcmp(argv[0], "tthl")) {
        /*
         * XXX: Implement full TTHL support.
         *
         * In the meantime, this is better than nothing, since it at
         * least allows fetching of the TTH root if it isn't already
         * known.
         */
        if(node == NULL)
        {
            qstr(sk, "$Error no TTHL data for virtual files|");
            goto out;
        }
        qstr(sk, "$ADCSND");
        sendadc(sk, "tthl");
        sendadc(sk, argv[1]);
        sendadc(sk, "0");
        sendadc(sk, "24");
        qstr(sk, "|");
        sockqueue(sk, node->hashtth, 24);
    } else {
        qstr(sk, "$Error Namespace not implemented|");
        goto out;
    }
    
 out:
    if(fd >= 0)
        close(fd);
    freeparr(argv);
}

static void handletthl(struct dcpeer *peer)
{
    char buf[24];
    
    while(peer->inbufdata >= 24)
    {
        pushtigertree(&peer->tth, peer->inbuf);
        memmove(peer->inbuf, peer->inbuf + 24, peer->inbufdata -= 24);
        peer->curread += 24;
    }
    if(peer->curread >= peer->totalsize)
    {
        if(peer->timeout == NULL)
            peer->timeout = timercallback(ntime() + 180, (void (*)(int, void *))peertimeout, peer);
        peer->state = PEER_CMD;
        synctigertree(&peer->tth);
        restigertree(&peer->tth, buf);
        transfersethash(peer->transfer, newhash(L"TTH", 24, buf));
        requestfile(peer);
    }
}

static void cmd_adcsnd(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    char **argv;
    int start, numbytes;
    
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if((argv = parseadc(args)) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    if(parrlen(argv) < 4)
    {
        freedcpeer(peer);
        goto out;
    }
    start = atoi(argv[2]);
    numbytes = atoi(argv[3]);
    if(!strcmp(argv[0], "tthl"))
    {
        if((start != 0) || (numbytes % 24 != 0))
        {
            /* Weird. Bail out. */
            freedcpeer(peer);
            goto out;
        }
        if(peer->timeout != NULL)
            canceltimer(peer->timeout);
        peer->state = PEER_TTHL;
        peer->totalsize = numbytes;
        peer->curread = 0;
        peer->fetchingtthl = 0;
        inittigertree(&peer->tth);
        handletthl(peer);
    } else if(!strcmp(argv[0], "file")) {
        if(start != peer->transfer->curpos)
        {
            freedcpeer(peer);
            goto out;
        }
        if(start + numbytes != peer->transfer->size)
        {
            transfersetsize(peer->transfer, start + numbytes);
            freedcpeer(peer);
            goto out;
        }
        startdl(peer);
        if(peer->inbufdata > 0)
        {
            sockpushdata(sk, peer->inbuf, peer->inbufdata);
            peer->inbufdata = 0;
            transread(sk, peer);
        }
    } else {
        /* We certainly didn't request this...*/
        freedcpeer(peer);
        goto out;
    }
    
 out:
    freeparr(argv);
}

static void cmd_sending(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
    int numbytes;
    
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    numbytes = atoi(args);
    if(peer->transfer->size - peer->transfer->curpos != numbytes)
    {
        transfersetsize(peer->transfer, peer->transfer->curpos + numbytes);
        freedcpeer(peer);
        return;
    }
    startdl(peer);
    if(peer->inbufdata > 0)
    {
        sockpushdata(sk, peer->inbuf, peer->inbufdata);
        peer->inbufdata = 0;
        transread(sk, peer);
    }
}

/*
Hub skeleton:
static void cmd_(struct socket *sk, struct fnetnode *fn, char *cmd, char *args)
{
    struct dchub *hub;
    
    hub = fn->data;
    hubhandleaction(sk, fn, cmd, args);
}

Peer skeleton:
static void cmd_(struct socket *sk, struct dcpeer *peer, char *cmd, char *args)
{
}

*/

static int hubreqconn(struct fnetpeer *peer)
{
    struct dchub *hub;
    char *mbsnick;
    
    if((peer->fn->state != FNN_EST) || (peer->fn->fnet != &dcnet))
    {
        errno = EINVAL;
        return(1);
    }
    if((hub = peer->fn->data) == NULL)
    {
        errno = EFAULT;
        return(1);
    }
    if((mbsnick = icwcstombs(peer->id, DCCHARSET)) == NULL)
        return(1); /* Shouldn't happen, of course, but who knows... */
    if(tcpsock != NULL)
    {
        sendctm(peer->fn->sk, mbsnick);
        expectpeer(mbsnick, peer->fn);
    } else {
        qstrf(peer->fn->sk, "$RevConnectToMe %s %s|", hub->nativenick, mbsnick);
    }
    free(mbsnick);
    return(0);
}

static int hubsendchat(struct fnetnode *fn, int public, wchar_t *to, wchar_t *string)
{
    struct dchub *hub;
    char *mbsstring, *mbsto;
    
    hub = fn->data;
    if((mbsto = icwcstombs(to, DCCHARSET)) == NULL)
    {
        errno = EILSEQ;
        return(1);
    }
    if((mbsstring = icwcstombs(string, DCCHARSET)) == NULL)
    {
        errno = EILSEQ;
        return(1);
    }
    if((strchr(mbsto, '|') != NULL) || (strchr(mbsto, ' ') != NULL))
    {
        free(mbsto);
        free(mbsstring);
        errno = ESRCH;
        return(1);
    }
    if(strchr(mbsstring, '|') != NULL)
    {
        free(mbsto);
        free(mbsstring);
        errno = EILSEQ;
        return(1);
    }
    if(public)
    {
        if(*to == L'\0')
        {
            qstrf(fn->sk, "<%s> %s|", hub->nativenick, mbsstring);
        } else {
            qstrf(fn->sk, "$To: %s From: %s $<%s> %s|", mbsto, hub->nativenick, hub->nativenick, mbsstring);
        }
    } else {
        qstrf(fn->sk, "$To: %s From: %s $<%s> %s|", mbsto, hub->nativenick, hub->nativenick, mbsstring);
    }
    free(mbsto);
    free(mbsstring);
    return(0);
}

static void findsizelimit(struct sexpr *sexpr, int *min, int *max)
{
    int minl, maxl, minr, maxr, retmin, retmax;
    
    switch(sexpr->op)
    {
    case SOP_AND:
        findsizelimit(sexpr->l, &minl, &maxl);
        findsizelimit(sexpr->r, &minr, &maxr);
        retmin = (minl > minr)?minl:minr;
        if((maxl != -1) && (maxr != -1))
            retmax = (maxl < maxr)?maxl:maxr;
        else if(maxl != -1)
            retmax = maxl;
        else if(maxr != -1)
            retmax = maxr;
        else
            retmax = -1;
        break;
    case SOP_OR:
        findsizelimit(sexpr->l, &minl, &maxl);
        findsizelimit(sexpr->r, &minr, &maxr);
        retmin = (minl < minr)?minl:minr;
        if((maxl == -1) || (maxr == -1))
            retmax = -1;
        else
            retmax = (maxl > maxr)?maxl:maxr;
        break;
    case SOP_NOT:
        findsizelimit(sexpr->l, &minl, &maxl);
        if((minl == 0) && (maxl == -1)) /* Interval is unspecified */
        {
            retmin = 0;
            retmax = -1;
        } else if((minl == 0) && (maxl != -1)) {
            retmin = maxl + 1;
            retmax = -1;
        } else if((minl != 0) && (maxl == -1)) {
            retmin = 0;
            retmax = minl - 1;
        } else { /* This would yield two seperate intervals, which DC cannot handle */
            retmin = 0;
            retmax = -1;
        }
    case SOP_SIZELT:
        retmin = 0;
        retmax = sexpr->d.n - 1;
        break;
    case SOP_SIZEEQ:
        retmin = sexpr->d.n;
        retmax = sexpr->d.n;
        break;
    case SOP_SIZEGT:
        retmin = sexpr->d.n + 1;
        retmax = -1;
        break;
    default:
        retmin = 0;
        retmax = -1;
        break;
    }
    if(min != NULL)
        *min = retmin;
    if(max != NULL)
        *max = retmax;
}

static struct hash *findsehash(struct sexpr *sexpr)
{
    struct hash *h1, *h2;
    
    switch(sexpr->op)
    {
    case SOP_AND:
        if((h1 = findsehash(sexpr->l)) != NULL)
            return(h1);
        if((h1 = findsehash(sexpr->r)) != NULL)
            return(h1);
        break;
    case SOP_OR:
        h1 = findsehash(sexpr->l);
        h2 = findsehash(sexpr->r);
        if(hashcmp(h1, h2))
            return(h1);
        break;
    case SOP_HASHIS:
        if(!wcscmp(sexpr->d.hash->algo, L"TTH"))
            return(sexpr->d.hash);
    default:
        break;
    }
    return(NULL);
}

static int hubsearch(struct fnetnode *fn, struct search *srch, struct srchfnnlist *ln)
{
    struct dchub *hub;
    struct wcslist *list, *cur;
    char *sstr, *buf, *p;
    size_t sstrsize, sstrdata;
    struct sockaddr *name;
    socklen_t namelen;
    int minsize, maxsize;
    struct hash *hash;
    
    hub = fn->data;
    if((fn->state != FNN_EST) || (fn->sk == NULL) || (fn->sk->state != SOCK_EST))
        return(1);
    list = findsexprstrs(srch->sexpr);
    findsizelimit(srch->sexpr, &minsize, &maxsize);
    hash = findsehash(srch->sexpr);
    if((minsize != 0) && (maxsize != -1))
    {
        /* Choose either minsize or maxsize by trying to determine
         * which choice will be most restrictive. The result can be
         * approximative at best anyway, so don't try too hard... */
        if((50000000 - maxsize) > (minsize - 50000000))
            minsize = 0;
        else
            maxsize = -1;
    }
    sstr = NULL;
    sstrsize = sstrdata = 0;
    if((hash != NULL) && (hash->len == 24))
    {
        /* Prioritize hash searches above all else */
        bufcat(sstr, "F?T?0?9?TTH:", 12);
        buf = base32encode(hash->buf, hash->len);
        
        bufcat(sstr, buf, 39);
        free(buf);
    } else {
        if(minsize != 0)
        {
            sizebuf2(sstr, sstrdata + 32, 1);
            snprintf(sstr + sstrdata, sstrsize - sstrdata, "T?F?%i?1?", minsize);
        } else if(maxsize != -1) {
            sizebuf2(sstr, sstrdata + 32, 1);
            snprintf(sstr + sstrdata, sstrsize - sstrdata, "T?T?%i?1?", maxsize);
        } else {
            bufcat(sstr, "F?F?0?1?", 8);
        }
        if(list != NULL)
        {
            for(cur = list; cur != NULL; cur = cur->next)
            {
                if((buf = icwcstombs(cur->str, DCCHARSET)) == NULL)
                {
                    /* Can't find anything anyway if the search expression
                     * requires characters outside DC's charset. There's
                     * nothing technically wrong with the search itself,
                     * however, so return success. This should be
                     * considered as an optimization. */
                    freesl(&list);
                    if(sstr != NULL)
                        free(sstr);
                    return(0);
                }
                if(cur != list)
                    addtobuf(sstr, '$');
                /*
                 * It probably doesn't hurt if buf contains any extra
                 * dollar signs - it will just result in extra search
                 * terms, and the extraneous results will be filtered by
                 * the search layer anyway. It hurts if it contains any
                 * pipes, though, so let's sell them for money.
                 */
                for(p = buf; *p; p++)
                {
                    if(*p == '|')
                        *p = '$';
                }
                bufcat(sstr, buf, strlen(buf));
                free(buf);
            }
        } else {
            /* Will match all files... :-/ */
            addtobuf(sstr, '.');
        }
    }
    addtobuf(sstr, 0);
    if(tcpsock != NULL)
    {
        if(sockgetremotename(udpsock, &name, &namelen) < 0)
        {
            flog(LOG_WARNING, "cannot get address of UDP socket");
        } else {
            qstrf(fn->sk, "$Search %s %s|", formataddress(name, namelen), sstr);
            free(name);
        }
    } else {
        qstrf(fn->sk, "$Search Hub:%s %s|", hub->nativenick, sstr);
    }
    free(sstr);
    freesl(&list);
    fn->lastsrch = time(NULL);
    return(0);
}

#undef skipcmd
#undef qstr
#undef qstrf

#define cc(c) ((void (*)(struct socket *, void *, char *, char *))(c))
struct command hubcmds[] =
{
    {"$Lock", cc(cmd_lock)},
    {"$HubName", cc(cmd_hubname)},
    {"$Hello", cc(cmd_hello)},
    {"$Quit", cc(cmd_quit)},
    {"$NickList", cc(cmd_nicklist)},
    {"$OpList", cc(cmd_oplist)},
    {"$MyINFO", cc(cmd_myinfo)},
    {"$ForceMove", cc(cmd_forcemove)},
    {"$Search", cc(cmd_search)},
    {"$MultiSearch", cc(cmd_search)},
    {"$ConnectToMe", cc(cmd_connecttome)},
    {"$RevConnectToMe", cc(cmd_revconnecttome)},
    {"$GetNetInfo", cc(cmd_getnetinfo)},
    {"$To:", cc(cmd_to)},
    {"$SR", cc(cmd_sr)},
    {"$UserCommand", cc(cmd_usercommand)},
    {"$GetPass", cc(cmd_getpass)},
    {"$LogedIn", cc(cmd_logedin)}, /* sic */
    {NULL, NULL}
};

struct command peercmds[] =
{
    {"$MyNick", cc(cmd_mynick)},
    {"$Lock", cc(cmd_peerlock)},
    {"$Direction", cc(cmd_direction)},
    {"$Key", cc(cmd_key)},
    {"$FileLength", cc(cmd_filelength)},
    {"$Error", cc(cmd_error)},
    {"$MaxedOut", cc(cmd_maxedout)},
    {"$Get", cc(cmd_get)},
    {"$Send", cc(cmd_send)},
    {"$Supports", cc(cmd_supports)},
    {"$GetBlock", cc(cmd_getblock)},
    {"$UGetBlock", cc(cmd_getblock)},
    {"$GetZBlock", cc(cmd_getblock)},
    {"$UGetZBlock", cc(cmd_getblock)},
    {"$ADCGET", cc(cmd_adcget)},
    {"$ADCSND", cc(cmd_adcsnd), 1},
    {"$Sending", cc(cmd_sending), 1},
    {NULL, NULL}
};
#undef cc

static void dctransdetach(struct transfer *transfer, struct dcpeer *peer)
{
    CBUNREG(transfer, trans_filterout, peer);
    if(peer->freeing)
        return;
    peer->transfer = NULL;
    freedcpeer(peer);
}

static void dctransgotdata(struct transfer *transfer, struct dcpeer *peer)
{
    int ret;
    void *buf;
    char outbuf[1024];
    z_stream *cstr;
    size_t bufsize;
    
    if((peer->state == PEER_TRNS) || (peer->state == PEER_SYNC))
    {
        if(sockqueuesize(peer->sk) < 65536)
        {
            if((buf = transfergetdata(transfer, &bufsize)) != NULL)
            {
                if(peer->compress == CPRS_NONE)
                {
                    sockqueue(peer->sk, buf, bufsize);
                } else if(peer->compress == CPRS_ZLIB) {
                    cstr = peer->cprsdata;
                    cstr->next_in = buf;
                    cstr->avail_in = bufsize;
                    while(cstr->avail_in > 0)
                    {
                        cstr->next_out = outbuf;
                        cstr->avail_out = sizeof(outbuf);
                        if((ret = deflate(cstr, 0)) != Z_OK)
                        {
                            flog(LOG_WARNING, "bug? deflate() did not return Z_OK (but rather %i)", ret);
                            freedcpeer(peer);
                            return;
                        }
                        sockqueue(peer->sk, outbuf, sizeof(outbuf) - cstr->avail_out);
                    }
                }
                free(buf);
            }
            if(peer->state == PEER_SYNC)
            {
                if(peer->compress == CPRS_ZLIB)
                {
                    cstr = peer->cprsdata;
                    cstr->next_in = NULL;
                    cstr->avail_in = 0;
                    do
                    {
                        cstr->next_out = outbuf;
                        cstr->avail_out = sizeof(outbuf);
                        ret = deflate(cstr, Z_FINISH);
                        if((ret != Z_OK) && (ret != Z_STREAM_END))
                        {
                            flog(LOG_WARNING, "bug? deflate(Z_FINISH) did not return Z_OK (but rather %i)", ret);
                            freedcpeer(peer);
                            return;
                        }
                        sockqueue(peer->sk, outbuf, sizeof(outbuf) - cstr->avail_out);
                    } while(ret != Z_STREAM_END);
                }
                if(peer->ptclose)
                {
                    freedcpeer(peer);
                } else {
                    if(peer->timeout == NULL)
                        peer->timeout = timercallback(ntime() + 180, (void (*)(int, void *))peertimeout, peer);
                    peer->state = PEER_CMD;
                    endcompress(peer);
                    transfersetstate(transfer, TRNS_HS);
                    socksettos(peer->sk, confgetint("fnet", "fnptos"));
                    peer->sk->writecb = NULL;
                }
            }
        }
    }
}

static void dctransendofdata(struct transfer *transfer, struct dcpeer *peer)
{
    peer->state = PEER_SYNC;
    dctransgotdata(transfer, peer);
}

static void dcwantdata(struct transfer *transfer, struct dcpeer *peer)
{
    if(transferdatasize(transfer) < 65536)
        peer->sk->ignread = 0;
}

static void transread(struct socket *sk, struct dcpeer *peer)
{
    void *buf;
    size_t bufsize;
    struct transfer *transfer;
    
    if((buf = sockgetinbuf(sk, &bufsize)) == NULL)
        return;
    if(peer->transfer == NULL)
    {
        free(buf);
        freedcpeer(peer);
        return;
    }
    transferputdata(peer->transfer, buf, bufsize);
    free(buf);
    if(peer->transfer->curpos >= peer->transfer->size)
    {
        transfer = peer->transfer;
        transferdetach(transfer);
        transferendofdata(transfer);
        return;
    }
    if(transferdatasize(peer->transfer) > 65535)
        sk->ignread = 1;
}

static void transerr(struct socket *sk, int err, struct dcpeer *peer)
{
    struct transfer *transfer;

    if((transfer = peer->transfer) == NULL)
    {
        freedcpeer(peer);
        return;
    }
    transferdetach(transfer);
    transferendofdata(transfer);
}

static void transwrite(struct socket *sk, struct dcpeer *peer)
{
    if((peer->state != PEER_TRNS) && (peer->state != PEER_SYNC))
        return;
    if(peer->transfer == NULL)
    {
        freedcpeer(peer);
        return;
    }
    dctransgotdata(peer->transfer, peer);
}

static void udpread(struct socket *sk, void *data)
{
    char *buf, *p, *p2, *hashbuf;
    size_t buflen, hashlen;
    char *nick, *filename, *hubname;
    int size, slots;
    struct fnetnode *fn, *myfn;
    struct dchub *hub;
    struct srchres *sr;
    wchar_t *wnick, *wfile;
    struct hash *hash;
    
    if((buf = sockgetinbuf(sk, &buflen)) == NULL)
        return;
    buf = srealloc(buf, buflen + 1);
    buf[buflen] = 0;
    if(!strncmp(buf, "$SR ", 4))
    {
        p = buf + 4;
        nick = p;
        if((p2 = strchr(p, ' ')) == NULL)
        {
            free(buf);
            return;
        }
        *p2 = 0;
        p = p2 + 1;
        filename = p;
        if((p2 = strchr(p, 5)) == NULL)
        {
            free(buf);
            return;
        }
        *p2 = 0;
        p = p2 + 1;
        if((p2 = strchr(p, ' ')) == NULL)
        {
            free(buf);
            return;
        }
        *p2 = 0;
        size = atoi(p);
        p = p2 + 1;
        if((p2 = strchr(p, '/')) == NULL)
        {
            free(buf);
            return;
        }
        *p2 = 0;
        slots = atoi(p);
        p = p2 + 1;
        if((p2 = strchr(p, 5)) == NULL)
        {
            free(buf);
            return;
        }
        p = p2 + 1;
        hubname = p;
        if((p2 = strstr(p, " (")) == NULL)
        {
            free(buf);
            return;
        }
        *p2 = 0;
        if((wnick = icmbstowcs(nick, DCCHARSET)) == NULL)
        {
            free(buf);
            return;
        }
        if((wfile = icmbstowcs(filename, DCCHARSET)) == NULL)
        {
            free(wnick);
            free(buf);
            return;
        }
        myfn = NULL;
        hash = NULL;
        if(!strncmp(hubname, "TTH:", 4))
        {
            if((hashbuf = base32decode(hubname + 4, &hashlen)) != NULL)
            {
                if(hashlen == 24)
                    hash = newhash(L"TTH", 24, hashbuf);
                free(hashbuf);
            }
        } else {
            for(fn = fnetnodes; fn != NULL; fn = fn->next)
            {
                if((fn->fnet == &dcnet) && ((hub = fn->data) != NULL))
                {
                    if((hub->nativename != NULL) && !strcmp(hub->nativename, hubname))
                    {
                        if(myfn == NULL)
                        {
                            myfn = fn;
                        } else {
                            myfn = NULL;
                            break;
                        }
                    }
                }
            }
        }
        sr = newsrchres(&dcnet, wfile, wnick);
        if(sr->peernick != NULL)
            free(sr->peernick);
        sr->peernick = swcsdup(wnick);
        sr->size = size;
        sr->slots = slots;
        free(wfile);
        free(wnick);
        if(myfn != NULL)
            getfnetnode(sr->fn = myfn);
        if(hash != NULL)
            sr->hash = hash;
        submitsrchres(sr);
        freesrchres(sr);
    }
    free(buf);
}

static void hubread(struct socket *sk, struct fnetnode *fn)
{
    struct dchub *hub;
    char *newbuf;
    size_t datalen;
    char *p;
    
    hub = (struct dchub *)fn->data;
    if((newbuf = sockgetinbuf(sk, &datalen)) == NULL)
        return;
    if(hub->inbufdata > 500000) /* Discard possible malicious data */
        hub->inbufdata = 0;
    sizebuf2(hub->inbuf, hub->inbufdata + datalen, 1);
    memcpy(hub->inbuf + hub->inbufdata, newbuf, datalen);
    free(newbuf);
    p = hub->inbuf + hub->inbufdata;
    hub->inbufdata += datalen;
    while((datalen > 0) && ((p = memchr(p, '|', datalen)) != NULL))
    {
        *(p++) = 0;
        newqcmd(&hub->queue, hub->inbuf);
        memmove(hub->inbuf, p, hub->inbufdata -= p - hub->inbuf);
        datalen = hub->inbufdata;
        p = hub->inbuf;
    }
}

static void huberr(struct socket *sk, int err, struct fnetnode *fn)
{
    killfnetnode(fn);
}

static int hubsetnick(struct fnetnode *fn, wchar_t *newnick)
{
    struct dchub *hub;
    char *buf;
    
    hub = fn->data;
    if((buf = icwcstombs(newnick, DCCHARSET)) == NULL)
        return(1);
    if((strchr(buf, ' ') != NULL) || (strchr(buf, '|') != NULL) || (strchr(buf, '$') != NULL))
    {
        free(buf);
        return(1);
    }
    if(hub == NULL) /* Not yet connected */
    {
        free(buf);
        return(0);
    }
    if(hub->nativenick != NULL)
        free(hub->nativenick);
    hub->nativenick = buf;
    return(0);
}

static struct dchub *newdchub(struct fnetnode *fn)
{
    struct dchub *new;
    
    new = smalloc(sizeof(*new));
    memset(new, 0, sizeof(*new));
    fn->data = new;
    if(hubsetnick(fn, fn->mynick))
        fnetsetnick(fn, L"DoldaConnectUser-IN");
    /* IN as in Invalid Nick */
    return(new);
}

static struct dcpeer *newdcpeer(struct socket *sk)
{
    struct dcpeer *new;
    
    new = smalloc(sizeof(*new));
    memset(new, 0, sizeof(*new));
    new->transfer = NULL;
    getsock(sk);
    new->sk = sk;
    new->next = peers;
    new->prev = NULL;
    if(peers != NULL)
        peers->prev = new;
    peers = new;
    numdcpeers++;
    return(new);
}

static void freedcpeer(struct dcpeer *peer)
{
    int i;
    struct qcommand *qcmd;
    
    peer->freeing = 1;
    if(peers == peer)
        peers = peer->next;
    if(peer->next != NULL)
        peer->next->prev = peer->prev;
    if(peer->prev != NULL)
        peer->prev->next = peer->next;
    if(peer->transfer != NULL)
    {
        if(peer->transfer->dir == TRNSD_UP)
            peer->transfer->close = 1;
        if(peer->transfer->dir == TRNSD_DOWN)
            resettransfer(peer->transfer);
        transferdetach(peer->transfer);
    }
    if(peer->timeout != NULL)
        canceltimer(peer->timeout);
    if(peer->sk->data == peer)
        peer->sk->data = NULL;
    peer->sk->readcb = NULL;
    peer->sk->writecb = NULL;
    peer->sk->errcb = NULL;
    putsock(peer->sk);
    endcompress(peer);
    if(peer->supports != NULL)
    {
        for(i = 0; peer->supports[i] != NULL; i++)
            free(peer->supports[i]);
        free(peer->supports);
    }
    if(peer->inbuf != NULL)
        free(peer->inbuf);
    if(peer->key != NULL)
        free(peer->key);
    if(peer->wcsname != NULL)
        free(peer->wcsname);
    if(peer->nativename != NULL)
        free(peer->nativename);
    if(peer->fn != NULL)
        putfnetnode(peer->fn);
    while((qcmd = ulqcmd(&peer->queue)) != NULL)
        freeqcmd(qcmd);
    free(peer);
    numdcpeers--;
}

static void hubconnect(struct fnetnode *fn)
{
    fn->sk->readcb = (void (*)(struct socket *, void *))hubread;
    fn->sk->errcb = (void (*)(struct socket *, int, void *))huberr;
    getfnetnode(fn);
    fn->data = newdchub(fn);
    fn->sk->data = fn;
    return;
}

static void hubdestroy(struct fnetnode *fn)
{
    struct dchub *hub;
    struct qcommand *qcmd;
    
    hub = (struct dchub *)fn->data;
    if(fn->sk != NULL)
    {
        if(fn->sk->data == fn)
        {
            fn->sk->data = NULL;
            putfnetnode(fn);
        }
    }
    if(hub == NULL)
        return;
    while((qcmd = ulqcmd(&hub->queue)) != NULL)
        freeqcmd(qcmd);
    if(hub->nativename != NULL)
        free(hub->nativename);
    if(hub->nativenick != NULL)
        free(hub->nativenick);
    if(hub->inbuf != NULL)
        free(hub->inbuf);
    free(hub);
}

static wchar_t *dcbasename(wchar_t *filename)
{
    wchar_t *ret;
    
    if((ret = wcsrchr(filename, L'\\')) != NULL)
        return(ret + 1);
    return(filename);
}

static struct transferiface dctransfer =
{
    .detach = (void (*)(struct transfer *, void *))dctransdetach,
    .gotdata = (void (*)(struct transfer *, void *))dctransgotdata,
    .endofdata = (void (*)(struct transfer *, void *))dctransendofdata,
    .wantdata = (void (*)(struct transfer *, void *))dcwantdata
};

static struct fnet dcnet =
{
    .name = L"dc",
    .connect = hubconnect,
    .destroy = hubdestroy,
    .setnick = hubsetnick,
    .reqconn = hubreqconn,
    .sendchat = hubsendchat,
    .search = hubsearch,
    .filebasename = dcbasename
};

static void peerread(struct socket *sk, struct dcpeer *peer)
{
    char *newbuf, *p;
    size_t datalen;
    struct command *cmd;

    if((newbuf = sockgetinbuf(sk, &datalen)) == NULL)
        return;
    sizebuf2(peer->inbuf, peer->inbufdata + datalen, 1);
    memcpy(peer->inbuf + peer->inbufdata, newbuf, datalen);
    free(newbuf);
    peer->inbufdata += datalen;
    if(peer->state == PEER_CMD)
    {
        p = peer->inbuf;
        while((peer->inbufdata > 0) && (p = memchr(peer->inbuf, '|', peer->inbufdata)) != NULL)
        {
            *(p++) = 0;
            newqcmd(&peer->queue, peer->inbuf);
            for(cmd = peercmds; cmd->handler != NULL; cmd++)
            {
                if(!memcmp(peer->inbuf, cmd->name, strlen(cmd->name)) && ((peer->inbuf[strlen(cmd->name)] == ' ') || (peer->inbuf[strlen(cmd->name)] == '|')))
                    break;
            }
            memmove(peer->inbuf, p, peer->inbufdata -= p - peer->inbuf);
            if(cmd->stop)
            {
                peer->state = PEER_STOP;
                break;
            }
        }
    } else if(peer->state == PEER_TTHL) {
        handletthl(peer);
    }
}

static void peererror(struct socket *sk, int err, struct dcpeer *peer)
{
    freedcpeer(peer);
}

static void peerconnect(struct socket *sk, int err, struct fnetnode *fn)
{
    struct dcpeer *peer;
    
    if(err != 0)
    {
        putfnetnode(fn);
        return;
    }
    peer = newdcpeer(sk);
    peer->fn = fn;
    peer->accepted = 0;
    sk->readcb = (void (*)(struct socket *, void *))peerread;
    sk->errcb = (void (*)(struct socket *, int, void *))peererror;
    sk->data = peer;
    socksettos(sk, confgetint("fnet", "fnptos"));
    putsock(sk);
    peer->timeout = timercallback(ntime() + 180, (void (*)(int, void *))peertimeout, peer);
    sendmynick(peer);
    sendpeerlock(peer);
}

static void peeraccept(struct socket *sk, struct socket *newsk, void *data)
{
    struct dcpeer *peer;
    
    peer = newdcpeer(newsk);
    peer->accepted = 1;
    newsk->readcb = (void (*)(struct socket *, void *))peerread;
    newsk->errcb = (void (*)(struct socket *, int, void *))peererror;
    newsk->data = peer;
    socksettos(newsk, confgetint("fnet", "fnptos"));
    peer->timeout = timercallback(ntime() + 180, (void (*)(int, void *))peertimeout, peer);
}

static void updatehmlist(void)
{
    int i, lev, ic, ret;
    struct sharecache *node;
    char *buf, *buf2, numbuf[32];
    size_t bufsize, bufdata;
    int fd, ibuf;
    
    bufdata = 0;
    buf = smalloc(bufsize = 65536);
    node = shareroot->child;
    lev = 0;
    while(1)
    {
        ic = 0;
        if((buf2 = icwcstombs(node->name, DCCHARSET)) != NULL)
        {
            for(i = 0; i < lev; i++)
                addtobuf(buf, 9);
            bufcat(buf, buf2, strlen(buf2));
            free(buf2);
            if(node->f.b.type == FILE_REG)
            {
                addtobuf(buf, '|');
                sprintf(numbuf, "%i", node->size);
                bufcat(buf, numbuf, strlen(numbuf));
            }
            addtobuf(buf, 13);
            addtobuf(buf, 10);
        } else {
            ic = 1;
        }
        if((node->child != NULL) && !ic)
        {
            lev++;
            node = node->child;
        } else if(node->next != NULL) {
            node = node->next;
        } else {
            while(node->next == NULL)
            {
                lev--;
                node = node->parent;
                if(node == shareroot)
                    break;
            }
            if(node == shareroot)
                break;
            node = node->next;
        }
    }
    if(hmlistname != NULL)
    {
        unlink(hmlistname);
        free(hmlistname);
    }
    hmlistname = sstrdup("/tmp/dc-filelist-hm-XXXXXX");
    if((fd = mkstemp(hmlistname)) < 0)
    {
        flog(LOG_WARNING, "could not create HM file list tempfile: %s", strerror(errno));
        free(hmlistname);
        hmlistname = NULL;
    } else {
        /*
         * I do not want to implement a good Huffman encoder, and it's not
         * like Huffman encoding actually yields any impressive results
         * for DC file lists anyway, so I'll just output a bogus
         * tree. Implement a good encoder if you want to.
         */
        write(fd, "HE3\r\0", 5);
        write(fd, &bufdata, 4);
        ibuf = 256;
        write(fd, &ibuf, 2);
        ibuf = 8;
        for(i = 0; i < 256; i++)
        {
            write(fd, &i, 1);
            write(fd, &ibuf, 1);
        }
        for(i = 0; i < 256; i++)
            write(fd, &i, 1);
        for(buf2 = buf; bufdata > 0;)
        {
            if((ret = write(fd, buf2, bufdata)) < 0)
            {
                flog(LOG_WARNING, "could not write file list: %s", strerror(errno));
                break;
            }
            bufdata -= ret;
            buf2 += ret;
        }
        close(fd);
    }
    free(buf);
}

static struct xmlent
{
    wchar_t c;
    wchar_t *ent;
} entities[] = {
    {L'&', L"&amp;"},
    {L'\"', L"&#34;"},
/*  {L'\'', L"&quot;"},  Emulate DC++ escaping by omitting this. */
    {L'\0', NULL}
};

static wchar_t *escapexml(wchar_t *src)
{
    static wchar_t *buf = NULL;;
    int ret, c;
    wchar_t nbuf[32];
    size_t bufsize, bufdata;
    struct xmlent *ent;
    
    if(buf != NULL)
        free(buf);
    buf = NULL;
    bufsize = bufdata = 0;
    for(; *src != L'\0'; src++)
    {
        c = wctob(*src);
        if((c > 0) && (c < 32))
        {
            bufcat(buf, L"&#", 2);
            ret = swprintf(nbuf, (sizeof(nbuf) / sizeof(*nbuf)), L"%i", c);
            bufcat(buf, nbuf, ret);
            addtobuf(buf, L';');
        } else {
            for(ent = entities; ent->ent != NULL; ent++)
            {
                if(ent->c == *src)
                {
                    bufcat(buf, ent->ent, wcslen(ent->ent));
                    break;
                }
            }
            if(ent->ent == NULL)
                addtobuf(buf, *src);
        }
    }
    addtobuf(buf, L'\0');
    return(buf);
}

static void updatexmllist(void)
{
    int i, fd, lev;
    FILE *fs;
    char cidbuf[14], *namebuf;
    char *hashbuf;
    struct sharecache *node;
    
    if(xmllistname != NULL)
    {
        unlink(xmllistname);
        free(xmllistname);
    }
    xmllistname = sstrdup("/tmp/dc-filelist-dcxml-XXXXXX");
    if((fd = mkstemp(xmllistname)) < 0)
    {
        flog(LOG_WARNING, "could not create XML file list tempfile: %s", strerror(errno));
        free(xmllistname);
        xmllistname = NULL;
        return;
    }
    if((fs = fdopen(fd, "w")) == NULL)
    {
        flog(LOG_WARNING, "could not fdopen XML list fd %i: %s", fd, strerror(errno));
        unlink(xmllistname);
        free(xmllistname);
        xmllistname = NULL;
        close(fd);
        return;
    }
    fprintf(fs, "<?xml version=\"1.0\" encoding=\"utf-8\" standalone=\"yes\"?>\r\n");
    for(i = 0; i < sizeof(cidbuf) - 1; i++)
        cidbuf[i] = (rand() % ('Z' - 'A' + 1)) + 'A';
    cidbuf[i] = 0;
    fprintf(fs, "<FileListing Version=\"1\" CID=\"%s\" Base=\"/\" Generator=\"%s\">\r\n", cidbuf, DCIDFULL);
    
    node = shareroot->child;
    lev = 0;
    while(1)
    {
        if((namebuf = icswcstombs(escapexml(node->name), "UTF-8", NULL)) != NULL)
        {
            for(i = 0; i < lev; i++)
                fputc('\t', fs);
            if(node->child != NULL)
            {
                fprintf(fs, "<Directory Name=\"%s\">\r\n", namebuf);
                node = node->child;
                lev++;
                continue;
            } else {
                fprintf(fs, "<File Name=\"%s\" Size=\"%i\"", namebuf, node->size);
                if(node->f.b.hastth)
                {
                    hashbuf = base32encode(node->hashtth, 24);
                    fprintf(fs, " TTH=\"%.39s\"", hashbuf);
                    free(hashbuf);
                }
                fprintf(fs, "/>\r\n");
            }
            while(node->next == NULL)
            {
                node = node->parent;
                if(node == shareroot)
                {
                    break;
                } else {
                    lev--;
                    for(i = 0; i < lev; i++)
                        fputc('\t', fs);
                    fprintf(fs, "</Directory>\r\n");
                }
            }
            if(node == shareroot)
                break;
            node = node->next;
        }
    }
    
#ifdef DCPP_MASQUERADE
    fprintf(fs, "</FileListing>");
#else
    fprintf(fs, "</FileListing>\r\n");
#endif
    fclose(fs);
}

static void updatexmlbz2list(void)
{
    int err, fd;
    FILE *in;
    FILE *real;
    BZFILE *out;
    char buf[1024];
    size_t bufdata;
    
    if(xmllistname == NULL)
        return;
    if((in = fopen(xmllistname, "r")) == NULL)
    {
        flog(LOG_WARNING, "could not open XML file list for bzipping: %s", strerror(errno));
        return;
    }
    if(xmlbz2listname != NULL)
    {
        unlink(xmlbz2listname);
        free(xmlbz2listname);
    }
    xmlbz2listname = sstrdup("/tmp/dc-filelist-dcxmlbz2-XXXXXX");
    if((fd = mkstemp(xmlbz2listname)) < 0)
    {
        flog(LOG_WARNING, "could not create bzipped XML file list tempfile: %s", strerror(errno));
        free(xmlbz2listname);
        xmlbz2listname = NULL;
        fclose(in);
        return;
    }
    if((real = fdopen(fd, "w")) == NULL)
    {
        flog(LOG_WARNING, "could not fdopen bzipped XML list fd %i: %s", fd, strerror(errno));
        close(fd);
        unlink(xmlbz2listname);
        free(xmlbz2listname);
        xmlbz2listname = NULL;
        fclose(in);
        return;
    }
    out = BZ2_bzWriteOpen(&err, real, 9, 0, 0);
    if(err != BZ_OK)
    {
        flog(LOG_WARNING, "could not open bzip2 stream from XML list");
        fclose(real);
        unlink(xmlbz2listname);
        free(xmlbz2listname);
        xmlbz2listname = NULL;
        fclose(in);
        return;
    }
    while(!feof(in))
    {
        bufdata = fread(buf, 1, sizeof(buf), in);
        BZ2_bzWrite(&err, out, buf, bufdata);
    }
    fclose(in);
    BZ2_bzWriteClose(&err, out, 0, NULL, NULL);
    fclose(real);
}

static int shareupdate(unsigned long long uusharesize, void *data)
{
    updatehmlist();
    updatexmllist();
    updatexmlbz2list();
    return(0);
}

static void dispatchcommand(struct qcommand *qcmd, struct command *cmdlist, struct socket *sk, void *data)
{
    char *p;
    struct command *cmd;
    
    if((p = strchr(qcmd->string, ' ')) != NULL)
        *(p++) = 0;
    for(cmd = cmdlist; cmd->handler != NULL; cmd++)
    {
        if(!strcmp(cmd->name, qcmd->string))
            break;
    }
    if(cmd->handler != NULL)
        cmd->handler(sk, data, qcmd->string, p);
/*
    else
        flog(LOG_DEBUG, "Unimplemented DC command: %s \"%s\"", qcmd->string, p?p:"noargs");
*/
}

static int run(void)
{
    struct fnetnode *fn, *nextfn;
    struct dchub *hub;
    struct dcpeer *peer, *nextpeer;
    struct qcommand *qcmd;
    int ret;
    
    ret = 0;
    for(fn = fnetnodes; fn != NULL; fn = nextfn)
    {
        nextfn = fn->next;
        if(fn->fnet != &dcnet)
            continue;
        if(fn->data == NULL)
            continue;
        hub = (struct dchub *)fn->data;
        if((qcmd = ulqcmd(&hub->queue)) != NULL)
        {
            if(*qcmd->string == '$')
            {
                if((fn->sk != NULL) && (fn->sk->state == SOCK_EST))
                    dispatchcommand(qcmd, hubcmds, fn->sk, fn);
            } else if(*qcmd->string != 0) {
                hubrecvchat(fn->sk, fn, NULL, qcmd->string);
            }
            freeqcmd(qcmd);
            ret = 1;
            break;
        }
    }
    for(peer = peers; peer != NULL; peer = nextpeer)
    {
        nextpeer = peer->next;
        if((qcmd = ulqcmd(&peer->queue)) != NULL)
        {
            if(peer->timeout != NULL)
                canceltimer(peer->timeout);
            peer->timeout = timercallback(ntime() + 180, (void (*)(int, void *))peertimeout, peer);
            if(*qcmd->string == '$')
                dispatchcommand(qcmd, peercmds, peer->sk, peer);
            freeqcmd(qcmd);
            ret = 1;
            break;
        }
    }
    return(ret);
}

static void preinit(int hup)
{
    if(hup)
        return;
    regfnet(&dcnet);
}

static int updateudpport(struct configvar *var, void *uudata)
{
    struct sockaddr_in addr;
    struct socket *newsock;
    
    memset(&addr, 0, sizeof(addr));
    addr.sin_family = AF_INET;
    addr.sin_port = htons(var->val.num);
    if((newsock = netcsdgram((struct sockaddr *)&addr, sizeof(addr))) == NULL)
    {
        flog(LOG_WARNING, "could not create new DC UDP socket, reverting to old: %s", strerror(errno));
        return(0);
    }
    newsock->readcb = udpread;
    if(udpsock != NULL)
        putsock(udpsock);
    udpsock = newsock;
    return(0);
}

static int updatetcpport(struct configvar *var, void *uudata)
{
    struct sockaddr_in addr;
    struct socket *newsock;
    
    memset(&addr, 0, sizeof(addr));
    addr.sin_family = AF_INET;
    addr.sin_port = htons(var->val.num);
    if((newsock = netcslisten(SOCK_STREAM, (struct sockaddr *)&addr, sizeof(addr), peeraccept, NULL)) == NULL)
        flog(LOG_INFO, "could not listen to a remote address, going into passive mode");
    if(tcpsock != NULL)
        putsock(tcpsock);
    tcpsock = newsock;
    return(0);
}

static int init(int hup)
{
    struct sockaddr_in addr;
    
    if(!hup)
    {
        GCBREG(sharechangecb, shareupdate, NULL);
        if(udpsock != NULL)
            putsock(udpsock);
        if(tcpsock != NULL)
            putsock(tcpsock);
        addr.sin_family = AF_INET;
        memset(&addr.sin_addr, 0, sizeof(addr.sin_addr));
        addr.sin_port = htons(confgetint("dc", "udpport"));
        if((udpsock = netcsdgram((struct sockaddr *)&addr, sizeof(addr))) == NULL)
        {
            flog(LOG_CRIT, "could not create DC UDP socket: %s", strerror(errno));
            return(1);
        }
        udpsock->readcb = udpread;
        addr.sin_port = htons(confgetint("dc", "tcpport"));
        if((tcpsock = netcslisten(SOCK_STREAM, (struct sockaddr *)&addr, sizeof(addr), peeraccept, NULL)) == NULL)
            flog(LOG_INFO, "could not listen to a remote address, going into passive mode");
        CBREG(confgetvar("dc", "udpport"), conf_update, updateudpport, NULL, NULL);
        CBREG(confgetvar("dc", "tcpport"), conf_update, updatetcpport, NULL, NULL);
        CBREG(confgetvar("net", "mode"), conf_update, updatetcpport, NULL, NULL);
    }
    return(0);
}

static void terminate(void)
{
    if(hmlistname != NULL)
    {
        unlink(hmlistname);
        free(hmlistname);
    }
    if(xmllistname != NULL)
    {
        unlink(xmllistname);
        free(xmllistname);
    }
    if(xmlbz2listname != NULL)
    {
        unlink(xmlbz2listname);
        free(xmlbz2listname);
    }
}

static struct configvar myvars[] =
{
    {CONF_VAR_STRING, "desc", {.str = L""}},
    {CONF_VAR_STRING, "speedstring", {.str = L"LAN(T1)"}},
    {CONF_VAR_STRING, "email", {.str = L"spam@spam.org"}},
    {CONF_VAR_INT, "udpport", {.num = 0}},
    {CONF_VAR_INT, "tcpport", {.num = 0}},
    {CONF_VAR_END}
};

static struct module me =
{
    .conf =
    {
        .vars = myvars
    },
    .preinit = preinit,
    .init = init,
    .run = run,
    .terminate = terminate,
    .name = "dc"
};

MODULE(me)