transmission/libtransmission/session.c

/*
 * This file Copyright (C) 2008-2014 Mnemosyne LLC
 *
 * It may be used under the GNU Public License v2 or v3 licenses,
 * or any future license endorsed by Mnemosyne LLC.
 *
 * $Id$
 */

#include <assert.h>
#include <errno.h> /* ENOENT */
#include <limits.h> /* INT_MAX */
#include <stdlib.h>
#include <string.h> /* memcpy */

#include <signal.h>
#include <sys/types.h> /* stat (), umask () */
#include <sys/stat.h> /* stat (), umask () */
#include <unistd.h> /* stat */
#include <dirent.h> /* opendir */

#include <event2/dns.h> /* evdns_base_free () */
#include <event2/event.h>

#include <libutp/utp.h>

//#define TR_SHOW_DEPRECATED
#include "transmission.h"
#include "announcer.h"
#include "bandwidth.h"
#include "blocklist.h"
#include "cache.h"
#include "crypto.h"
#include "fdlimit.h"
#include "list.h"
#include "log.h"
#include "net.h"
#include "peer-io.h"
#include "peer-mgr.h"
#include "platform.h" /* tr_lock, tr_getTorrentDir () */
#include "platform-quota.h" /* tr_device_info_free() */
#include "port-forwarding.h"
#include "rpc-server.h"
#include "session.h"
#include "stats.h"
#include "torrent.h"
#include "tr-dht.h" /* tr_dhtUpkeep () */
#include "tr-udp.h"
#include "tr-utp.h"
#include "tr-lpd.h"
#include "trevent.h"
#include "utils.h"
#include "variant.h"
#include "verify.h"
#include "version.h"
#include "web.h"

enum
{
#ifdef TR_LIGHTWEIGHT
  DEFAULT_CACHE_SIZE_MB = 2,
  DEFAULT_PREFETCH_ENABLED = false,
#else
  DEFAULT_CACHE_SIZE_MB = 4,
  DEFAULT_PREFETCH_ENABLED = true,
#endif
  SAVE_INTERVAL_SECS = 360
};


#define dbgmsg(...) \
  do \
    { \
      if (tr_logGetDeepEnabled ()) \
        tr_logAddDeep (__FILE__, __LINE__, NULL, __VA_ARGS__); \
    } \
  while (0)

static tr_port
getRandomPort (tr_session * s)
{
  return tr_cryptoWeakRandInt (s->randomPortHigh - s->randomPortLow + 1) + s->randomPortLow;
}

/* Generate a peer id : "-TRxyzb-" + 12 random alphanumeric
   characters, where x is the major version number, y is the
   minor version number, z is the maintenance number, and b
   designates beta (Azureus-style) */
void
tr_peerIdInit (uint8_t * buf)
{
  int i;
  int val;
  int total = 0;
  const char * pool = "0123456789abcdefghijklmnopqrstuvwxyz";
  const int base = 36;

  memcpy (buf, PEERID_PREFIX, 8);

  tr_cryptoRandBuf (buf+8, 11);
  for (i=8; i<19; ++i)
    {
      val = buf[i] % base;
      total += val;
      buf[i] = pool[val];
    }

  val = total % base ? base - (total % base) : 0;
  buf[19] = pool[val];
  buf[20] = '\0';
}

/***
****
***/

tr_encryption_mode
tr_sessionGetEncryption (tr_session * session)
{
  assert (session);

  return session->encryptionMode;
}

void
tr_sessionSetEncryption (tr_session          * session,
                         tr_encryption_mode    mode)
{
  assert (session);
  assert (mode == TR_ENCRYPTION_PREFERRED
       || mode == TR_ENCRYPTION_REQUIRED
       || mode == TR_CLEAR_PREFERRED);

  session->encryptionMode = mode;
}

/***
****
***/

struct tr_bindinfo
{
  int socket;
  tr_address addr;
  struct event * ev;
};


static void
close_bindinfo (struct tr_bindinfo * b)
{
  if ((b != NULL) && (b->socket >=0))
    {
      event_free (b->ev);
      b->ev = NULL;
      tr_netCloseSocket (b->socket);
    }
}

static void
close_incoming_peer_port (tr_session * session)
{
  close_bindinfo (session->public_ipv4);
  close_bindinfo (session->public_ipv6);
}

static void
free_incoming_peer_port (tr_session * session)
{
  close_bindinfo (session->public_ipv4);
  tr_free (session->public_ipv4);
  session->public_ipv4 = NULL;

  close_bindinfo (session->public_ipv6);
  tr_free (session->public_ipv6);
  session->public_ipv6 = NULL;
}

static void
accept_incoming_peer (evutil_socket_t fd, short what UNUSED, void * vsession)
{
  int clientSocket;
  tr_port clientPort;
  tr_address clientAddr;
  tr_session * session = vsession;

  clientSocket = tr_netAccept (session, fd, &clientAddr, &clientPort);
  if (clientSocket > 0)
    {
      tr_logAddDeep (__FILE__, __LINE__, NULL, "new incoming connection %d (%s)",
                       clientSocket, tr_peerIoAddrStr (&clientAddr, clientPort));
      tr_peerMgrAddIncoming (session->peerMgr, &clientAddr, clientPort,
                             clientSocket, NULL);
    }
}

static void
open_incoming_peer_port (tr_session * session)
{
  struct tr_bindinfo * b;

  /* bind an ipv4 port to listen for incoming peers... */
  b = session->public_ipv4;
  b->socket = tr_netBindTCP (&b->addr, session->private_peer_port, false);
  if (b->socket >= 0)
    {
      b->ev = event_new (session->event_base, b->socket, EV_READ | EV_PERSIST, accept_incoming_peer, session);
      event_add (b->ev, NULL);
    }

  /* and do the exact same thing for ipv6, if it's supported... */
  if (tr_net_hasIPv6 (session->private_peer_port))
    {
      b = session->public_ipv6;
      b->socket = tr_netBindTCP (&b->addr, session->private_peer_port, false);
      if (b->socket >= 0)
        {
          b->ev = event_new (session->event_base, b->socket, EV_READ | EV_PERSIST, accept_incoming_peer, session);
          event_add (b->ev, NULL);
        }
    }
}

const tr_address*
tr_sessionGetPublicAddress (const tr_session * session, int tr_af_type, bool * is_default_value)
{
  const char * default_value;
  const struct tr_bindinfo * bindinfo;

  switch (tr_af_type)
    {
      case TR_AF_INET:
        bindinfo = session->public_ipv4;
        default_value = TR_DEFAULT_BIND_ADDRESS_IPV4;
        break;

      case TR_AF_INET6:
        bindinfo = session->public_ipv6;
        default_value = TR_DEFAULT_BIND_ADDRESS_IPV6;
        break;

      default:
        bindinfo = NULL;
        default_value = "";
        break;
    }

  if (is_default_value && bindinfo)
    *is_default_value = !tr_strcmp0 (default_value, tr_address_to_string (&bindinfo->addr));

  return bindinfo ? &bindinfo->addr : NULL;
}

/***
****
***/

#ifdef TR_LIGHTWEIGHT
 #define TR_DEFAULT_ENCRYPTION   TR_CLEAR_PREFERRED
#else
 #define TR_DEFAULT_ENCRYPTION   TR_ENCRYPTION_PREFERRED
#endif

static int
parse_tos (const char *str)
{
  char *p;
  int value;

  if (!evutil_ascii_strcasecmp (str, ""))
    return 0;
  if (!evutil_ascii_strcasecmp (str, "default"))
    return 0;

  if (!evutil_ascii_strcasecmp (str, "lowcost"))
    return 0x10;
  if (!evutil_ascii_strcasecmp (str, "mincost"))
    return 0x10;

  if (!evutil_ascii_strcasecmp (str, "throughput"))
    return 0x08;
  if (!evutil_ascii_strcasecmp (str, "reliability"))
    return 0x04;
  if (!evutil_ascii_strcasecmp (str, "lowdelay"))
    return 0x02;

  value = strtol (str, &p, 0);
  if (!p || (p == str))
    return 0;

  return value;
}

static const char *
format_tos (int value)
{
  static char buf[8];
  switch (value)
    {
      case 0: return "default";
      case 0x10: return "lowcost";
      case 0x08: return "throughput";
      case 0x04: return "reliability";
      case 0x02: return "lowdelay";
      default:
        tr_snprintf (buf, 8, "%d", value);
        return buf;
    }
}

void
tr_sessionGetDefaultSettings (tr_variant * d)
{
  assert (tr_variantIsDict (d));

  tr_variantDictReserve (d, 63);
  tr_variantDictAddBool (d, TR_KEY_blocklist_enabled,               false);
  tr_variantDictAddStr  (d, TR_KEY_blocklist_url,                   "http://www.example.com/blocklist");
  tr_variantDictAddInt  (d, TR_KEY_cache_size_mb,                   DEFAULT_CACHE_SIZE_MB);
  tr_variantDictAddBool (d, TR_KEY_dht_enabled,                     true);
  tr_variantDictAddBool (d, TR_KEY_utp_enabled,                     true);
  tr_variantDictAddBool (d, TR_KEY_lpd_enabled,                     false);
  tr_variantDictAddStr  (d, TR_KEY_download_dir,                    tr_getDefaultDownloadDir ());
  tr_variantDictAddInt  (d, TR_KEY_speed_limit_down,                100);
  tr_variantDictAddBool (d, TR_KEY_speed_limit_down_enabled,        false);
  tr_variantDictAddInt  (d, TR_KEY_encryption,                      TR_DEFAULT_ENCRYPTION);
  tr_variantDictAddInt  (d, TR_KEY_idle_seeding_limit,              30);
  tr_variantDictAddBool (d, TR_KEY_idle_seeding_limit_enabled,      false);
  tr_variantDictAddStr  (d, TR_KEY_incomplete_dir,                  tr_getDefaultDownloadDir ());
  tr_variantDictAddBool (d, TR_KEY_incomplete_dir_enabled,          false);
  tr_variantDictAddInt  (d, TR_KEY_message_level,                   TR_LOG_INFO);
  tr_variantDictAddInt  (d, TR_KEY_download_queue_size,             5);
  tr_variantDictAddBool (d, TR_KEY_download_queue_enabled,          true);
  tr_variantDictAddInt  (d, TR_KEY_peer_limit_global,               atoi (TR_DEFAULT_PEER_LIMIT_GLOBAL_STR));
  tr_variantDictAddInt  (d, TR_KEY_peer_limit_per_torrent,          atoi (TR_DEFAULT_PEER_LIMIT_TORRENT_STR));
  tr_variantDictAddInt  (d, TR_KEY_peer_port,                       atoi (TR_DEFAULT_PEER_PORT_STR));
  tr_variantDictAddBool (d, TR_KEY_peer_port_random_on_start,       false);
  tr_variantDictAddInt  (d, TR_KEY_peer_port_random_low,            49152);
  tr_variantDictAddInt  (d, TR_KEY_peer_port_random_high,           65535);
  tr_variantDictAddStr  (d, TR_KEY_peer_socket_tos,                 TR_DEFAULT_PEER_SOCKET_TOS_STR);
  tr_variantDictAddBool (d, TR_KEY_pex_enabled,                     true);
  tr_variantDictAddBool (d, TR_KEY_port_forwarding_enabled,         true);
  tr_variantDictAddInt  (d, TR_KEY_preallocation,                   TR_PREALLOCATE_SPARSE);
  tr_variantDictAddBool (d, TR_KEY_prefetch_enabled,                DEFAULT_PREFETCH_ENABLED);
  tr_variantDictAddInt  (d, TR_KEY_peer_id_ttl_hours,               6);
  tr_variantDictAddBool (d, TR_KEY_queue_stalled_enabled,           true);
  tr_variantDictAddInt  (d, TR_KEY_queue_stalled_minutes,           30);
  tr_variantDictAddReal (d, TR_KEY_ratio_limit,                     2.0);
  tr_variantDictAddBool (d, TR_KEY_ratio_limit_enabled,             false);
  tr_variantDictAddBool (d, TR_KEY_rename_partial_files,            true);
  tr_variantDictAddBool (d, TR_KEY_rpc_authentication_required,     false);
  tr_variantDictAddStr  (d, TR_KEY_rpc_bind_address,                "0.0.0.0");
  tr_variantDictAddBool (d, TR_KEY_rpc_enabled,                     false);
  tr_variantDictAddStr  (d, TR_KEY_rpc_password,                    "");
  tr_variantDictAddStr  (d, TR_KEY_rpc_username,                    "");
  tr_variantDictAddStr  (d, TR_KEY_rpc_whitelist,                   TR_DEFAULT_RPC_WHITELIST);
  tr_variantDictAddBool (d, TR_KEY_rpc_whitelist_enabled,           true);
  tr_variantDictAddInt  (d, TR_KEY_rpc_port,                        atoi (TR_DEFAULT_RPC_PORT_STR));
  tr_variantDictAddStr  (d, TR_KEY_rpc_url,                         TR_DEFAULT_RPC_URL_STR);
  tr_variantDictAddBool (d, TR_KEY_scrape_paused_torrents_enabled,  true);
  tr_variantDictAddStr  (d, TR_KEY_script_torrent_done_filename,    "");
  tr_variantDictAddBool (d, TR_KEY_script_torrent_done_enabled,     false);
  tr_variantDictAddInt  (d, TR_KEY_seed_queue_size,                 10);
  tr_variantDictAddBool (d, TR_KEY_seed_queue_enabled,              false);
  tr_variantDictAddBool (d, TR_KEY_alt_speed_enabled,               false);
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_up,                    50); /* half the regular */
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_down,                  50); /* half the regular */
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_time_begin,            540); /* 9am */
  tr_variantDictAddBool (d, TR_KEY_alt_speed_time_enabled,          false);
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_time_end,              1020); /* 5pm */
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_time_day,              TR_SCHED_ALL);
  tr_variantDictAddInt  (d, TR_KEY_speed_limit_up,                  100);
  tr_variantDictAddBool (d, TR_KEY_speed_limit_up_enabled,          false);
  tr_variantDictAddInt  (d, TR_KEY_umask,                           022);
  tr_variantDictAddInt  (d, TR_KEY_upload_slots_per_torrent,        14);
  tr_variantDictAddStr  (d, TR_KEY_bind_address_ipv4,               TR_DEFAULT_BIND_ADDRESS_IPV4);
  tr_variantDictAddStr  (d, TR_KEY_bind_address_ipv6,               TR_DEFAULT_BIND_ADDRESS_IPV6);
  tr_variantDictAddBool (d, TR_KEY_start_added_torrents,            true);
  tr_variantDictAddBool (d, TR_KEY_trash_original_torrent_files,    false);
}

void
tr_sessionGetSettings (tr_session * s, tr_variant * d)
{
  assert (tr_variantIsDict (d));

  tr_variantDictReserve (d, 63);
  tr_variantDictAddBool (d, TR_KEY_blocklist_enabled,            tr_blocklistIsEnabled (s));
  tr_variantDictAddStr  (d, TR_KEY_blocklist_url,                tr_blocklistGetURL (s));
  tr_variantDictAddInt  (d, TR_KEY_cache_size_mb,                tr_sessionGetCacheLimit_MB (s));
  tr_variantDictAddBool (d, TR_KEY_dht_enabled,                  s->isDHTEnabled);
  tr_variantDictAddBool (d, TR_KEY_utp_enabled,                  s->isUTPEnabled);
  tr_variantDictAddBool (d, TR_KEY_lpd_enabled,                  s->isLPDEnabled);
  tr_variantDictAddStr  (d, TR_KEY_download_dir,                 tr_sessionGetDownloadDir (s));
  tr_variantDictAddInt  (d, TR_KEY_download_queue_size,          tr_sessionGetQueueSize (s, TR_DOWN));
  tr_variantDictAddBool (d, TR_KEY_download_queue_enabled,       tr_sessionGetQueueEnabled (s, TR_DOWN));
  tr_variantDictAddInt  (d, TR_KEY_speed_limit_down,             tr_sessionGetSpeedLimit_KBps (s, TR_DOWN));
  tr_variantDictAddBool (d, TR_KEY_speed_limit_down_enabled,     tr_sessionIsSpeedLimited (s, TR_DOWN));
  tr_variantDictAddInt  (d, TR_KEY_encryption,                   s->encryptionMode);
  tr_variantDictAddInt  (d, TR_KEY_idle_seeding_limit,           tr_sessionGetIdleLimit (s));
  tr_variantDictAddBool (d, TR_KEY_idle_seeding_limit_enabled,   tr_sessionIsIdleLimited (s));
  tr_variantDictAddStr  (d, TR_KEY_incomplete_dir,               tr_sessionGetIncompleteDir (s));
  tr_variantDictAddBool (d, TR_KEY_incomplete_dir_enabled,       tr_sessionIsIncompleteDirEnabled (s));
  tr_variantDictAddInt  (d, TR_KEY_message_level,                tr_logGetLevel ());
  tr_variantDictAddInt  (d, TR_KEY_peer_limit_global,            s->peerLimit);
  tr_variantDictAddInt  (d, TR_KEY_peer_limit_per_torrent,       s->peerLimitPerTorrent);
  tr_variantDictAddInt  (d, TR_KEY_peer_port,                    tr_sessionGetPeerPort (s));
  tr_variantDictAddBool (d, TR_KEY_peer_port_random_on_start,    s->isPortRandom);
  tr_variantDictAddInt  (d, TR_KEY_peer_port_random_low,         s->randomPortLow);
  tr_variantDictAddInt  (d, TR_KEY_peer_port_random_high,        s->randomPortHigh);
  tr_variantDictAddStr  (d, TR_KEY_peer_socket_tos,              format_tos (s->peerSocketTOS));
  tr_variantDictAddStr  (d, TR_KEY_peer_congestion_algorithm,    s->peer_congestion_algorithm);
  tr_variantDictAddBool (d, TR_KEY_pex_enabled,                  s->isPexEnabled);
  tr_variantDictAddBool (d, TR_KEY_port_forwarding_enabled,      tr_sessionIsPortForwardingEnabled (s));
  tr_variantDictAddInt  (d, TR_KEY_preallocation,                s->preallocationMode);
  tr_variantDictAddInt  (d, TR_KEY_prefetch_enabled,             s->isPrefetchEnabled);
  tr_variantDictAddInt  (d, TR_KEY_peer_id_ttl_hours,            s->peer_id_ttl_hours);
  tr_variantDictAddBool (d, TR_KEY_queue_stalled_enabled,        tr_sessionGetQueueStalledEnabled (s));
  tr_variantDictAddInt  (d, TR_KEY_queue_stalled_minutes,        tr_sessionGetQueueStalledMinutes (s));
  tr_variantDictAddReal (d, TR_KEY_ratio_limit,                  s->desiredRatio);
  tr_variantDictAddBool (d, TR_KEY_ratio_limit_enabled,          s->isRatioLimited);
  tr_variantDictAddBool (d, TR_KEY_rename_partial_files,         tr_sessionIsIncompleteFileNamingEnabled (s));
  tr_variantDictAddBool (d, TR_KEY_rpc_authentication_required,  tr_sessionIsRPCPasswordEnabled (s));
  tr_variantDictAddStr  (d, TR_KEY_rpc_bind_address,             tr_sessionGetRPCBindAddress (s));
  tr_variantDictAddBool (d, TR_KEY_rpc_enabled,                  tr_sessionIsRPCEnabled (s));
  tr_variantDictAddStr  (d, TR_KEY_rpc_password,                 tr_sessionGetRPCPassword (s));
  tr_variantDictAddInt  (d, TR_KEY_rpc_port,                     tr_sessionGetRPCPort (s));
  tr_variantDictAddStr  (d, TR_KEY_rpc_url,                      tr_sessionGetRPCUrl (s));
  tr_variantDictAddStr  (d, TR_KEY_rpc_username,                 tr_sessionGetRPCUsername (s));
  tr_variantDictAddStr  (d, TR_KEY_rpc_whitelist,                tr_sessionGetRPCWhitelist (s));
  tr_variantDictAddBool (d, TR_KEY_rpc_whitelist_enabled,        tr_sessionGetRPCWhitelistEnabled (s));
  tr_variantDictAddBool (d, TR_KEY_scrape_paused_torrents_enabled, s->scrapePausedTorrents);
  tr_variantDictAddBool (d, TR_KEY_script_torrent_done_enabled,  tr_sessionIsTorrentDoneScriptEnabled (s));
  tr_variantDictAddStr  (d, TR_KEY_script_torrent_done_filename, tr_sessionGetTorrentDoneScript (s));
  tr_variantDictAddInt  (d, TR_KEY_seed_queue_size,              tr_sessionGetQueueSize (s, TR_UP));
  tr_variantDictAddBool (d, TR_KEY_seed_queue_enabled,           tr_sessionGetQueueEnabled (s, TR_UP));
  tr_variantDictAddBool (d, TR_KEY_alt_speed_enabled,            tr_sessionUsesAltSpeed (s));
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_up,                 tr_sessionGetAltSpeed_KBps (s, TR_UP));
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_down,               tr_sessionGetAltSpeed_KBps (s, TR_DOWN));
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_time_begin,         tr_sessionGetAltSpeedBegin (s));
  tr_variantDictAddBool (d, TR_KEY_alt_speed_time_enabled,       tr_sessionUsesAltSpeedTime (s));
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_time_end,           tr_sessionGetAltSpeedEnd (s));
  tr_variantDictAddInt  (d, TR_KEY_alt_speed_time_day,           tr_sessionGetAltSpeedDay (s));
  tr_variantDictAddInt  (d, TR_KEY_speed_limit_up,               tr_sessionGetSpeedLimit_KBps (s, TR_UP));
  tr_variantDictAddBool (d, TR_KEY_speed_limit_up_enabled,       tr_sessionIsSpeedLimited (s, TR_UP));
  tr_variantDictAddInt  (d, TR_KEY_umask,                        s->umask);
  tr_variantDictAddInt  (d, TR_KEY_upload_slots_per_torrent,     s->uploadSlotsPerTorrent);
  tr_variantDictAddStr  (d, TR_KEY_bind_address_ipv4,            tr_address_to_string (&s->public_ipv4->addr));
  tr_variantDictAddStr  (d, TR_KEY_bind_address_ipv6,            tr_address_to_string (&s->public_ipv6->addr));
  tr_variantDictAddBool (d, TR_KEY_start_added_torrents,         !tr_sessionGetPaused (s));
  tr_variantDictAddBool (d, TR_KEY_trash_original_torrent_files, tr_sessionGetDeleteSource (s));
}

bool
tr_sessionLoadSettings (tr_variant * dict, const char * configDir, const char * appName)
{
  int err = 0;
  char * filename;
  tr_variant fileSettings;
  tr_variant sessionDefaults;
  tr_variant tmp;
  bool success = false;

  assert (tr_variantIsDict (dict));

  /* initializing the defaults: caller may have passed in some app-level defaults.
   * preserve those and use the session defaults to fill in any missing gaps. */
  tr_variantInitDict (&sessionDefaults, 0);
  tr_sessionGetDefaultSettings (&sessionDefaults);
  tr_variantMergeDicts (&sessionDefaults, dict);
  tmp = *dict;
  *dict = sessionDefaults;
  sessionDefaults = tmp;

  /* if caller didn't specify a config dir, use the default */
  if (!configDir || !*configDir)
    configDir = tr_getDefaultConfigDir (appName);

  /* file settings override the defaults */
  filename = tr_buildPath (configDir, "settings.json", NULL);
  err = tr_variantFromFile (&fileSettings, TR_VARIANT_FMT_JSON, filename);
  if (!err)
    {
      tr_variantMergeDicts (dict, &fileSettings);
      tr_variantFree (&fileSettings);
    }

  /* cleanup */
  tr_variantFree (&sessionDefaults);
  tr_free (filename);
  success = (err==0) || (err==ENOENT);
  return success;
}

void
tr_sessionSaveSettings (tr_session       * session,
                        const char       * configDir,
                        const tr_variant * clientSettings)
{
  tr_variant settings;
  char * filename = tr_buildPath (configDir, "settings.json", NULL);

  assert (tr_variantIsDict (clientSettings));

  tr_variantInitDict (&settings, 0);

  /* the existing file settings are the fallback values */
  {
    tr_variant fileSettings;
    const int err = tr_variantFromFile (&fileSettings, TR_VARIANT_FMT_JSON, filename);
    if (!err)
      {
        tr_variantMergeDicts (&settings, &fileSettings);
        tr_variantFree (&fileSettings);
      }
  }

  /* the client's settings override the file settings */
  tr_variantMergeDicts (&settings, clientSettings);

  /* the session's true values override the file & client settings */
  {
    tr_variant sessionSettings;
    tr_variantInitDict (&sessionSettings, 0);
    tr_sessionGetSettings (session, &sessionSettings);
    tr_variantMergeDicts (&settings, &sessionSettings);
    tr_variantFree (&sessionSettings);
  }

  /* save the result */
  tr_variantToFile (&settings, TR_VARIANT_FMT_JSON, filename);

  /* cleanup */
  tr_free (filename);
  tr_variantFree (&settings);
}

/***
****
***/

/**
 * Periodically save the .resume files of any torrents whose
 * status has recently changed. This prevents loss of metadata
 * in the case of a crash, unclean shutdown, clumsy user, etc.
 */
static void
onSaveTimer (evutil_socket_t foo UNUSED, short bar UNUSED, void * vsession)
{
  tr_torrent * tor = NULL;
  tr_session * session = vsession;

  if (tr_cacheFlushDone (session->cache))
    tr_logAddError ("Error while flushing completed pieces from cache");

  while ((tor = tr_torrentNext (session, tor)))
    tr_torrentSave (tor);

  tr_statsSaveDirty (session);

  tr_timerAdd (session->saveTimer, SAVE_INTERVAL_SECS, 0);
}

/***
****
***/

static void tr_sessionInitImpl (void *);

struct init_data
{
  bool done;
  bool messageQueuingEnabled;
  tr_session * session;
  const char * configDir;
  tr_variant * clientSettings;
};

tr_session *
tr_sessionInit (const char  * tag,
                const char  * configDir,
                bool          messageQueuingEnabled,
                tr_variant     * clientSettings)
{
  int64_t i;
  tr_session * session;
  struct init_data data;

  assert (tr_variantIsDict (clientSettings));

  tr_timeUpdate (time (NULL));

  /* initialize the bare skeleton of the session object */
  session = tr_new0 (tr_session, 1);
  session->udp_socket = -1;
  session->udp6_socket = -1;
  session->lock = tr_lockNew ();
  session->cache = tr_cacheNew (1024*1024*2);
  session->tag = tr_strdup (tag);
  session->magicNumber = SESSION_MAGIC_NUMBER;
  tr_bandwidthConstruct (&session->bandwidth, session, NULL);
  tr_variantInitList (&session->removedTorrents, 0);

  /* nice to start logging at the very beginning */
  if (tr_variantDictFindInt (clientSettings, TR_KEY_message_level, &i))
    tr_logSetLevel (i);

  /* start the libtransmission thread */
  tr_netInit (); /* must go before tr_eventInit */
  tr_eventInit (session);
  assert (session->events != NULL);

  /* run the rest in the libtransmission thread */
  data.done = false;
  data.session = session;
  data.configDir = configDir;
  data.messageQueuingEnabled = messageQueuingEnabled;
  data.clientSettings = clientSettings;
  tr_runInEventThread (session, tr_sessionInitImpl, &data);
  while (!data.done)
    tr_wait_msec (50);

  return session;
}

static void turtleCheckClock (tr_session * s, struct tr_turtle_info * t);

static void
onNowTimer (evutil_socket_t foo UNUSED, short bar UNUSED, void * vsession)
{
  int usec;
  const int min = 100;
  const int max = 999999;
  struct timeval tv;
  tr_torrent * tor = NULL;
  tr_session * session = vsession;
  const time_t now = time (NULL);

  assert (tr_isSession (session));
  assert (session->nowTimer != NULL);

  /**
  ***  tr_session things to do once per second
  **/

  tr_timeUpdate (now);

  tr_dhtUpkeep (session);

  if (session->turtle.isClockEnabled)
    turtleCheckClock (session, &session->turtle);

  while ((tor = tr_torrentNext (session, tor)))
    {
      if (tor->isRunning)
        {
          if (tr_torrentIsSeed (tor))
            ++tor->secondsSeeding;
          else
            ++tor->secondsDownloading;
        }
    }

  /**
  ***  Set the timer
  **/

  /* schedule the next timer for right after the next second begins */
  tr_gettimeofday (&tv);
  usec = 1000000 - tv.tv_usec;
  if (usec > max)
    usec = max;
  if (usec < min)
    usec = min;
  tr_timerAdd (session->nowTimer, 0, usec);
  /* fprintf (stderr, "time %"TR_PRIuSIZE" sec, %"TR_PRIuSIZE" microsec\n", (size_t)tr_time (), (size_t)tv.tv_usec); */
}

static void loadBlocklists (tr_session * session);

static void
tr_sessionInitImpl (void * vdata)
{
  tr_variant settings;
  struct init_data * data = vdata;
  tr_variant * clientSettings = data->clientSettings;
  tr_session * session = data->session;

  assert (tr_amInEventThread (session));
  assert (tr_variantIsDict (clientSettings));

  dbgmsg ("tr_sessionInit: the session's top-level bandwidth object is %p",
          (void*)&session->bandwidth);

  tr_variantInitDict (&settings, 0);
  tr_sessionGetDefaultSettings (&settings);
  tr_variantMergeDicts (&settings, clientSettings);

  assert (session->event_base != NULL);
  session->nowTimer = evtimer_new (session->event_base, onNowTimer, session);
  onNowTimer (0, 0, session);

#ifndef WIN32
  /* Don't exit when writing on a broken socket */
  signal (SIGPIPE, SIG_IGN);
#endif

  tr_logSetQueueEnabled (data->messageQueuingEnabled);

  tr_setConfigDir (session, data->configDir);

  session->peerMgr = tr_peerMgrNew (session);

  session->shared = tr_sharedInit (session);

  /**
  ***  Blocklist
  **/

  {
    char * filename = tr_buildPath (session->configDir, "blocklists", NULL);
    tr_mkdirp (filename, 0777);
    tr_free (filename);
    loadBlocklists (session);
  }

  assert (tr_isSession (session));

  session->saveTimer = evtimer_new (session->event_base, onSaveTimer, session);
  tr_timerAdd (session->saveTimer, SAVE_INTERVAL_SECS, 0);

  tr_announcerInit (session);

  /* first %s is the application name
     second %s is the version number */
  tr_logAddInfo (_("%s %s started"), TR_NAME, LONG_VERSION_STRING);

  tr_statsInit (session);

  tr_sessionSet (session, &settings);

  tr_udpInit (session);

  if (session->isLPDEnabled)
    tr_lpdInit (session, &session->public_ipv4->addr);

  /* cleanup */
  tr_variantFree (&settings);
  data->done = true;
}

static void turtleBootstrap (tr_session *, struct tr_turtle_info *);
static void setPeerPort (tr_session * session, tr_port port);

static void
sessionSetImpl (void * vdata)
{
  int64_t i;
  double  d;
  bool boolVal;
  const char * str;
  struct tr_bindinfo b;
  struct init_data * data = vdata;
  tr_session * session = data->session;
  tr_variant * settings = data->clientSettings;
  struct tr_turtle_info * turtle = &session->turtle;

  assert (tr_isSession (session));
  assert (tr_variantIsDict (settings));
  assert (tr_amInEventThread (session));

  if (tr_variantDictFindInt (settings, TR_KEY_message_level, &i))
    tr_logSetLevel (i);

  if (tr_variantDictFindInt (settings, TR_KEY_umask, &i))
    {
      session->umask = (mode_t)i;
      umask (session->umask);
    }

  /* misc features */
  if (tr_variantDictFindInt (settings, TR_KEY_cache_size_mb, &i))
    tr_sessionSetCacheLimit_MB (session, i);
  if (tr_variantDictFindInt (settings, TR_KEY_peer_limit_per_torrent, &i))
    tr_sessionSetPeerLimitPerTorrent (session, i);
  if (tr_variantDictFindBool (settings, TR_KEY_pex_enabled, &boolVal))
    tr_sessionSetPexEnabled (session, boolVal);
  if (tr_variantDictFindBool (settings, TR_KEY_dht_enabled, &boolVal))
    tr_sessionSetDHTEnabled (session, boolVal);
  if (tr_variantDictFindBool (settings, TR_KEY_utp_enabled, &boolVal))
    tr_sessionSetUTPEnabled (session, boolVal);
  if (tr_variantDictFindBool (settings, TR_KEY_lpd_enabled, &boolVal))
    tr_sessionSetLPDEnabled (session, boolVal);
  if (tr_variantDictFindInt (settings, TR_KEY_encryption, &i))
    tr_sessionSetEncryption (session, i);
  if (tr_variantDictFindStr (settings, TR_KEY_peer_socket_tos, &str, NULL))
    session->peerSocketTOS = parse_tos (str);
  if (tr_variantDictFindStr (settings, TR_KEY_peer_congestion_algorithm, &str, NULL))
    session->peer_congestion_algorithm = tr_strdup (str);
  else
    session->peer_congestion_algorithm = tr_strdup ("");
  if (tr_variantDictFindBool (settings, TR_KEY_blocklist_enabled, &boolVal))
    tr_blocklistSetEnabled (session, boolVal);
  if (tr_variantDictFindStr (settings, TR_KEY_blocklist_url, &str, NULL))
    tr_blocklistSetURL (session, str);
  if (tr_variantDictFindBool (settings, TR_KEY_start_added_torrents, &boolVal))
    tr_sessionSetPaused (session, !boolVal);
  if (tr_variantDictFindBool (settings, TR_KEY_trash_original_torrent_files, &boolVal))
    tr_sessionSetDeleteSource (session, boolVal);
  if (tr_variantDictFindInt (settings, TR_KEY_peer_id_ttl_hours, &i))
    session->peer_id_ttl_hours = i;

  /* torrent queues */
  if (tr_variantDictFindInt (settings, TR_KEY_queue_stalled_minutes, &i))
    tr_sessionSetQueueStalledMinutes (session, i);
  if (tr_variantDictFindBool (settings, TR_KEY_queue_stalled_enabled, &boolVal))
    tr_sessionSetQueueStalledEnabled (session, boolVal);
  if (tr_variantDictFindInt (settings, TR_KEY_download_queue_size, &i))
    tr_sessionSetQueueSize (session, TR_DOWN, i);
  if (tr_variantDictFindBool (settings, TR_KEY_download_queue_enabled, &boolVal))
    tr_sessionSetQueueEnabled (session, TR_DOWN, boolVal);
  if (tr_variantDictFindInt (settings, TR_KEY_seed_queue_size, &i))
    tr_sessionSetQueueSize (session, TR_UP, i);
  if (tr_variantDictFindBool (settings, TR_KEY_seed_queue_enabled, &boolVal))
    tr_sessionSetQueueEnabled (session, TR_UP, boolVal);

  /* files and directories */
  if (tr_variantDictFindBool (settings, TR_KEY_prefetch_enabled, &boolVal))
    session->isPrefetchEnabled = boolVal;
  if (tr_variantDictFindInt (settings, TR_KEY_preallocation, &i))
    session->preallocationMode = i;
  if (tr_variantDictFindStr (settings, TR_KEY_download_dir, &str, NULL))
    tr_sessionSetDownloadDir (session, str);
  if (tr_variantDictFindStr (settings, TR_KEY_incomplete_dir, &str, NULL))
    tr_sessionSetIncompleteDir (session, str);
  if (tr_variantDictFindBool (settings, TR_KEY_incomplete_dir_enabled, &boolVal))
    tr_sessionSetIncompleteDirEnabled (session, boolVal);
  if (tr_variantDictFindBool (settings, TR_KEY_rename_partial_files, &boolVal))
    tr_sessionSetIncompleteFileNamingEnabled (session, boolVal);

  /* rpc server */
  if (session->rpcServer != NULL) /* close the old one */
    tr_rpcClose (&session->rpcServer);
  session->rpcServer = tr_rpcInit (session, settings);

  /* public addresses */

  free_incoming_peer_port (session);

  tr_variantDictFindStr (settings, TR_KEY_bind_address_ipv4, &str, NULL);
  if (!tr_address_from_string (&b.addr, str) || (b.addr.type != TR_AF_INET))
    b.addr = tr_inaddr_any;
  b.socket = -1;
  session->public_ipv4 = tr_memdup (&b, sizeof (struct tr_bindinfo));

  tr_variantDictFindStr (settings, TR_KEY_bind_address_ipv6, &str, NULL);
  if (!tr_address_from_string (&b.addr, str) || (b.addr.type != TR_AF_INET6))
    b.addr = tr_in6addr_any;
  b.socket = -1;
  session->public_ipv6 = tr_memdup (&b, sizeof (struct tr_bindinfo));

  /* incoming peer port */
  if (tr_variantDictFindInt (settings, TR_KEY_peer_port_random_low, &i))
    session->randomPortLow = i;
  if (tr_variantDictFindInt (settings, TR_KEY_peer_port_random_high, &i))
    session->randomPortHigh = i;
  if (tr_variantDictFindBool (settings, TR_KEY_peer_port_random_on_start, &boolVal))
    tr_sessionSetPeerPortRandomOnStart (session, boolVal);
  if (!tr_variantDictFindInt (settings, TR_KEY_peer_port, &i))
    i = session->private_peer_port;
  setPeerPort (session, boolVal ? getRandomPort (session) : i);
  if (tr_variantDictFindBool (settings, TR_KEY_port_forwarding_enabled, &boolVal))
    tr_sessionSetPortForwardingEnabled (session, boolVal);

  if (tr_variantDictFindInt (settings, TR_KEY_peer_limit_global, &i))
    session->peerLimit = i;

  /**
  **/

  if (tr_variantDictFindInt (settings, TR_KEY_upload_slots_per_torrent, &i))
    session->uploadSlotsPerTorrent = i;

  if (tr_variantDictFindInt (settings, TR_KEY_speed_limit_up, &i))
    tr_sessionSetSpeedLimit_KBps (session, TR_UP, i);
  if (tr_variantDictFindBool (settings, TR_KEY_speed_limit_up_enabled, &boolVal))
    tr_sessionLimitSpeed (session, TR_UP, boolVal);

  if (tr_variantDictFindInt (settings, TR_KEY_speed_limit_down, &i))
    tr_sessionSetSpeedLimit_KBps (session, TR_DOWN, i);
  if (tr_variantDictFindBool (settings, TR_KEY_speed_limit_down_enabled, &boolVal))
    tr_sessionLimitSpeed (session, TR_DOWN, boolVal);

  if (tr_variantDictFindReal (settings, TR_KEY_ratio_limit, &d))
    tr_sessionSetRatioLimit (session, d);
  if (tr_variantDictFindBool (settings, TR_KEY_ratio_limit_enabled, &boolVal))
    tr_sessionSetRatioLimited (session, boolVal);

  if (tr_variantDictFindInt (settings, TR_KEY_idle_seeding_limit, &i))
    tr_sessionSetIdleLimit (session, i);
  if (tr_variantDictFindBool (settings, TR_KEY_idle_seeding_limit_enabled, &boolVal))
    tr_sessionSetIdleLimited (session, boolVal);

  /**
  ***  Turtle Mode
  **/

  /* update the turtle mode's fields */
  if (tr_variantDictFindInt (settings, TR_KEY_alt_speed_up, &i))
    turtle->speedLimit_Bps[TR_UP] = toSpeedBytes (i);
  if (tr_variantDictFindInt (settings, TR_KEY_alt_speed_down, &i))
    turtle->speedLimit_Bps[TR_DOWN] = toSpeedBytes (i);
  if (tr_variantDictFindInt (settings, TR_KEY_alt_speed_time_begin, &i))
    turtle->beginMinute = i;
  if (tr_variantDictFindInt (settings, TR_KEY_alt_speed_time_end, &i))
    turtle->endMinute = i;
  if (tr_variantDictFindInt (settings, TR_KEY_alt_speed_time_day, &i))
    turtle->days = i;
  if (tr_variantDictFindBool (settings, TR_KEY_alt_speed_time_enabled, &boolVal))
    turtle->isClockEnabled = boolVal;
  if (tr_variantDictFindBool (settings, TR_KEY_alt_speed_enabled, &boolVal))
    turtle->isEnabled = boolVal;
  turtleBootstrap (session, turtle);

  /**
  ***  Scripts
  **/

  if (tr_variantDictFindBool (settings, TR_KEY_script_torrent_done_enabled, &boolVal))
    tr_sessionSetTorrentDoneScriptEnabled (session, boolVal);
  if (tr_variantDictFindStr (settings, TR_KEY_script_torrent_done_filename, &str, NULL))
    tr_sessionSetTorrentDoneScript (session, str);


  if (tr_variantDictFindBool (settings, TR_KEY_scrape_paused_torrents_enabled, &boolVal))
    session->scrapePausedTorrents = boolVal;

  data->done = true;
}

void
tr_sessionSet (tr_session * session, tr_variant * settings)
{
  struct init_data data;
  data.done = false;
  data.session = session;
  data.clientSettings = settings;

  /* run the rest in the libtransmission thread */
  tr_runInEventThread (session, sessionSetImpl, &data);
  while (!data.done)
    tr_wait_msec (100);
}

/***
****
***/

void
tr_sessionSetDownloadDir (tr_session * session, const char * dir)
{
  struct tr_device_info * info = NULL;

  assert (tr_isSession (session));

  if (dir != NULL)
    info = tr_device_info_create (dir);
  tr_device_info_free (session->downloadDir);
  session->downloadDir = info;
}

const char *
tr_sessionGetDownloadDir (const tr_session * session)
{
  const char * dir = NULL;

  assert (tr_isSession (session));

  if ((session != NULL) && (session->downloadDir != NULL))
    dir = session->downloadDir->path;

  return dir;
}

int64_t
tr_sessionGetDirFreeSpace (tr_session * session, const char * dir)
{
  int64_t free_space;

  if (!tr_strcmp0 (dir, tr_sessionGetDownloadDir (session)))
    free_space = tr_device_info_get_free_space (session->downloadDir);
  else
    free_space = tr_getDirFreeSpace (dir);

  return free_space;
}

/***
****
***/

void
tr_sessionSetIncompleteFileNamingEnabled (tr_session * session, bool b)
{
  assert (tr_isSession (session));
  assert (tr_isBool (b));

  session->isIncompleteFileNamingEnabled = b;
}

bool
tr_sessionIsIncompleteFileNamingEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isIncompleteFileNamingEnabled;
}

/***
****
***/


void
tr_sessionSetIncompleteDir (tr_session * session, const char * dir)
{
  assert (tr_isSession (session));

  if (session->incompleteDir != dir)
    {
      tr_free (session->incompleteDir);

      session->incompleteDir = tr_strdup (dir);
    }
}

const char*
tr_sessionGetIncompleteDir (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->incompleteDir;
}

void
tr_sessionSetIncompleteDirEnabled (tr_session * session, bool b)
{
  assert (tr_isSession (session));
  assert (tr_isBool (b));

  session->isIncompleteDirEnabled = b;
}

bool
tr_sessionIsIncompleteDirEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isIncompleteDirEnabled;
}

/***
****
***/

void
tr_sessionLock (tr_session * session)
{
  assert (tr_isSession (session));

  tr_lockLock (session->lock);
}

void
tr_sessionUnlock (tr_session * session)
{
  assert (tr_isSession (session));

  tr_lockUnlock (session->lock);
}

bool
tr_sessionIsLocked (const tr_session * session)
{
  return tr_isSession (session) && tr_lockHave (session->lock);
}

/***
****  Peer Port
***/

static void
peerPortChanged (void * session)
{
  tr_torrent * tor = NULL;

  assert (tr_isSession (session));

  close_incoming_peer_port (session);
  open_incoming_peer_port (session);
  tr_sharedPortChanged (session);

  while ((tor = tr_torrentNext (session, tor)))
    tr_torrentChangeMyPort (tor);
}

static void
setPeerPort (tr_session * session, tr_port port)
{
  session->private_peer_port = port;
  session->public_peer_port = port;

  tr_runInEventThread (session, peerPortChanged, session);
}

void
tr_sessionSetPeerPort (tr_session * session, tr_port port)
{
  if (tr_isSession (session) && (session->private_peer_port != port))
    {
      setPeerPort (session, port);
    }
}

tr_port
tr_sessionGetPeerPort (const tr_session * session)
{
  return tr_isSession (session) ? session->private_peer_port : 0;
}

tr_port
tr_sessionSetPeerPortRandom (tr_session * session)
{
  assert (tr_isSession (session));

  tr_sessionSetPeerPort (session, getRandomPort (session));
  return session->private_peer_port;
}

void
tr_sessionSetPeerPortRandomOnStart (tr_session * session,
                                    bool random)
{
  assert (tr_isSession (session));

  session->isPortRandom = random;
}

bool
tr_sessionGetPeerPortRandomOnStart (tr_session * session)
{
  assert (tr_isSession (session));

  return session->isPortRandom;
}

tr_port_forwarding
tr_sessionGetPortForwarding (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_sharedTraversalStatus (session->shared);
}

/***
****
***/

void
tr_sessionSetRatioLimited (tr_session * session, bool isLimited)
{
  assert (tr_isSession (session));

  session->isRatioLimited = isLimited;
}

void
tr_sessionSetRatioLimit (tr_session * session, double desiredRatio)
{
  assert (tr_isSession (session));

  session->desiredRatio = desiredRatio;
}

bool
tr_sessionIsRatioLimited (const tr_session  * session)
{
  assert (tr_isSession (session));

  return session->isRatioLimited;
}

double
tr_sessionGetRatioLimit (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->desiredRatio;
}

/***
****
***/

void
tr_sessionSetIdleLimited (tr_session * session, bool isLimited)
{
  assert (tr_isSession (session));

  session->isIdleLimited = isLimited;
}

void
tr_sessionSetIdleLimit (tr_session * session, uint16_t idleMinutes)
{
  assert (tr_isSession (session));

  session->idleLimitMinutes = idleMinutes;
}

bool
tr_sessionIsIdleLimited (const tr_session  * session)
{
  assert (tr_isSession (session));

  return session->isIdleLimited;
}

uint16_t
tr_sessionGetIdleLimit (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->idleLimitMinutes;
}

/***
****
****  SPEED LIMITS
****
***/

bool
tr_sessionGetActiveSpeedLimit_Bps (const tr_session * session, tr_direction dir, unsigned int * setme_Bps)
{
  int isLimited = true;

  if (!tr_isSession (session))
    return false;

  if (tr_sessionUsesAltSpeed (session))
    *setme_Bps = tr_sessionGetAltSpeed_Bps (session, dir);
  else if (tr_sessionIsSpeedLimited (session, dir))
    *setme_Bps = tr_sessionGetSpeedLimit_Bps (session, dir);
  else
    isLimited = false;

  return isLimited;
}
bool
tr_sessionGetActiveSpeedLimit_KBps (const tr_session  * session,
                                    tr_direction        dir,
                                    double            * setme_KBps)
{
  unsigned int Bps = 0;
  const bool is_active = tr_sessionGetActiveSpeedLimit_Bps (session, dir, &Bps);
  *setme_KBps = toSpeedKBps (Bps);
  return is_active;
}

static void
updateBandwidth (tr_session * session, tr_direction dir)
{
  unsigned int limit_Bps = 0;
  const bool isLimited = tr_sessionGetActiveSpeedLimit_Bps (session, dir, &limit_Bps);
  const bool zeroCase = isLimited && !limit_Bps;

  tr_bandwidthSetLimited (&session->bandwidth, dir, isLimited && !zeroCase);

  tr_bandwidthSetDesiredSpeed_Bps (&session->bandwidth, dir, limit_Bps);
}

enum
{
  MINUTES_PER_HOUR = 60,
  MINUTES_PER_DAY = MINUTES_PER_HOUR * 24,
  MINUTES_PER_WEEK = MINUTES_PER_DAY * 7
};

static void
turtleUpdateTable (struct tr_turtle_info * t)
{
  int day;
  tr_bitfield * b = &t->minutes;

  tr_bitfieldSetHasNone (b);

  for (day=0; day<7; ++day)
    {
      if (t->days & (1<<day))
        {
          int i;
          const time_t begin = t->beginMinute;
          time_t end = t->endMinute;

          if (end <= begin)
            end += MINUTES_PER_DAY;

          for (i=begin; i<end; ++i)
            tr_bitfieldAdd (b, (i+day*MINUTES_PER_DAY) % MINUTES_PER_WEEK);
        }
    }
}

static void
altSpeedToggled (void * vsession)
{
  tr_session * session = vsession;
  struct tr_turtle_info * t = &session->turtle;

  assert (tr_isSession (session));

  updateBandwidth (session, TR_UP);
  updateBandwidth (session, TR_DOWN);

  if (t->callback != NULL)
    (*t->callback)(session, t->isEnabled, t->changedByUser, t->callbackUserData);
}

static void
useAltSpeed (tr_session * s, struct tr_turtle_info * t,
             bool enabled, bool byUser)
{
  assert (tr_isSession (s));
  assert (t != NULL);
  assert (tr_isBool (enabled));
  assert (tr_isBool (byUser));

  if (t->isEnabled != enabled)
    {
      t->isEnabled = enabled;
      t->changedByUser = byUser;
      tr_runInEventThread (s, altSpeedToggled, s);
    }
}

/**
 * @return whether turtle should be on/off according to the scheduler
 */
static bool
getInTurtleTime (const struct tr_turtle_info * t)
{
  struct tm tm;
  size_t minute_of_the_week;
  const time_t now = tr_time ();

  tr_localtime_r (&now, &tm);

  minute_of_the_week = tm.tm_wday * MINUTES_PER_DAY
                     + tm.tm_hour * MINUTES_PER_HOUR
                     + tm.tm_min;
  if (minute_of_the_week >= MINUTES_PER_WEEK) /* leap minutes? */
    minute_of_the_week = MINUTES_PER_WEEK - 1;

  return tr_bitfieldHas (&t->minutes, minute_of_the_week);
}

static inline tr_auto_switch_state_t
autoSwitchState (bool enabled)
{
    return enabled ? TR_AUTO_SWITCH_ON : TR_AUTO_SWITCH_OFF;
}

static void
turtleCheckClock (tr_session * s, struct tr_turtle_info * t)
{
  bool enabled;
  bool alreadySwitched;
  tr_auto_switch_state_t newAutoTurtleState;

  assert (t->isClockEnabled);

  enabled = getInTurtleTime (t);
  newAutoTurtleState = autoSwitchState (enabled);
  alreadySwitched = (t->autoTurtleState == newAutoTurtleState);

  if (!alreadySwitched)
    {
      tr_logAddInfo ("Time to turn %s turtle mode!", (enabled?"on":"off"));
      t->autoTurtleState = newAutoTurtleState;
      useAltSpeed (s, t, enabled, false);
    }
}

/* Called after the turtle's fields are loaded from an outside source.
 * It initializes the implementation fields
 * and turns on turtle mode if the clock settings say to. */
static void
turtleBootstrap (tr_session * session, struct tr_turtle_info * turtle)
{
  turtle->changedByUser = false;
  turtle->autoTurtleState = TR_AUTO_SWITCH_UNUSED;

  tr_bitfieldConstruct (&turtle->minutes, MINUTES_PER_WEEK);

  turtleUpdateTable (turtle);

  if (turtle->isClockEnabled)
    {
      turtle->isEnabled = getInTurtleTime (turtle);
      turtle->autoTurtleState = autoSwitchState (turtle->isEnabled);
    }

  altSpeedToggled (session);

}

/***
****  Primary session speed limits
***/

void
tr_sessionSetSpeedLimit_Bps (tr_session * s, tr_direction d, unsigned int Bps)
{
  assert (tr_isSession (s));
  assert (tr_isDirection (d));

  s->speedLimit_Bps[d] = Bps;

  updateBandwidth (s, d);
}
void
tr_sessionSetSpeedLimit_KBps (tr_session * s, tr_direction d, unsigned int KBps)
{
  tr_sessionSetSpeedLimit_Bps (s, d, toSpeedBytes (KBps));
}

unsigned int
tr_sessionGetSpeedLimit_Bps (const tr_session * s, tr_direction d)
{
  assert (tr_isSession (s));
  assert (tr_isDirection (d));

  return s->speedLimit_Bps[d];
}
unsigned int
tr_sessionGetSpeedLimit_KBps (const tr_session * s, tr_direction d)
{
    return toSpeedKBps (tr_sessionGetSpeedLimit_Bps (s, d));
}

void
tr_sessionLimitSpeed (tr_session * s, tr_direction d, bool b)
{
  assert (tr_isSession (s));
  assert (tr_isDirection (d));
  assert (tr_isBool (b));

  s->speedLimitEnabled[d] = b;

  updateBandwidth (s, d);
}

bool
tr_sessionIsSpeedLimited (const tr_session * s, tr_direction d)
{
  assert (tr_isSession (s));
  assert (tr_isDirection (d));

  return s->speedLimitEnabled[d];
}

/***
****  Alternative speed limits that are used during scheduled times
***/

void
tr_sessionSetAltSpeed_Bps (tr_session * s, tr_direction d, unsigned int Bps)
{
  assert (tr_isSession (s));
  assert (tr_isDirection (d));

  s->turtle.speedLimit_Bps[d] = Bps;

  updateBandwidth (s, d);
}

void
tr_sessionSetAltSpeed_KBps (tr_session * s, tr_direction d, unsigned int KBps)
{
  tr_sessionSetAltSpeed_Bps (s, d, toSpeedBytes (KBps));
}

unsigned int
tr_sessionGetAltSpeed_Bps (const tr_session * s, tr_direction d)
{
  assert (tr_isSession (s));
  assert (tr_isDirection (d));

  return s->turtle.speedLimit_Bps[d];
}
unsigned int
tr_sessionGetAltSpeed_KBps (const tr_session * s, tr_direction d)
{
  return toSpeedKBps (tr_sessionGetAltSpeed_Bps (s, d));
}

static void
userPokedTheClock (tr_session * s, struct tr_turtle_info * t)
{
  tr_logAddDebug ("Refreshing the turtle mode clock due to user changes");

  t->autoTurtleState = TR_AUTO_SWITCH_UNUSED;

  turtleUpdateTable (t);

  if (t->isClockEnabled)
    {
      const bool enabled = getInTurtleTime (t);
      useAltSpeed (s, t, enabled, true);
      t->autoTurtleState = autoSwitchState (enabled);
    }
}

void
tr_sessionUseAltSpeedTime (tr_session * s, bool b)
{
  struct tr_turtle_info * t = &s->turtle;

  assert (tr_isSession (s));
  assert (tr_isBool (b));

  if (t->isClockEnabled != b)
    {
      t->isClockEnabled = b;
      userPokedTheClock (s, t);
    }
}

bool
tr_sessionUsesAltSpeedTime (const tr_session * s)
{
  assert (tr_isSession (s));

  return s->turtle.isClockEnabled;
}

void
tr_sessionSetAltSpeedBegin (tr_session * s, int minute)
{
  assert (tr_isSession (s));
  assert (0<=minute && minute< (60*24));

  if (s->turtle.beginMinute != minute)
    {
      s->turtle.beginMinute = minute;
      userPokedTheClock (s, &s->turtle);
    }
}

int
tr_sessionGetAltSpeedBegin (const tr_session * s)
{
  assert (tr_isSession (s));

  return s->turtle.beginMinute;
}

void
tr_sessionSetAltSpeedEnd (tr_session * s, int minute)
{
  assert (tr_isSession (s));
  assert (0<=minute && minute< (60*24));

  if (s->turtle.endMinute != minute)
    {
      s->turtle.endMinute = minute;
      userPokedTheClock (s, &s->turtle);
    }
}

int
tr_sessionGetAltSpeedEnd (const tr_session * s)
{
  assert (tr_isSession (s));

  return s->turtle.endMinute;
}

void
tr_sessionSetAltSpeedDay (tr_session * s, tr_sched_day days)
{
  assert (tr_isSession (s));

  if (s->turtle.days != days)
    {
      s->turtle.days = days;
      userPokedTheClock (s, &s->turtle);
    }
}

tr_sched_day
tr_sessionGetAltSpeedDay (const tr_session * s)
{
  assert (tr_isSession (s));

  return s->turtle.days;
}

void
tr_sessionUseAltSpeed (tr_session * session, bool enabled)
{
  useAltSpeed (session, &session->turtle, enabled, true);
}

bool
tr_sessionUsesAltSpeed (const tr_session * s)
{
  assert (tr_isSession (s));

  return s->turtle.isEnabled;
}

void
tr_sessionSetAltSpeedFunc (tr_session       * session,
                           tr_altSpeedFunc    func,
                           void             * userData)
{
  assert (tr_isSession (session));

  session->turtle.callback = func;
  session->turtle.callbackUserData = userData;
}

void
tr_sessionClearAltSpeedFunc (tr_session * session)
{
  tr_sessionSetAltSpeedFunc (session, NULL, NULL);
}

/***
****
***/

void
tr_sessionSetPeerLimit (tr_session * session, uint16_t n)
{
  assert (tr_isSession (session));

  session->peerLimit = n;
}

uint16_t
tr_sessionGetPeerLimit (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->peerLimit;
}

void
tr_sessionSetPeerLimitPerTorrent (tr_session  * session, uint16_t n)
{
    assert (tr_isSession (session));

    session->peerLimitPerTorrent = n;
}

uint16_t
tr_sessionGetPeerLimitPerTorrent (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->peerLimitPerTorrent;
}

/***
****
***/

void
tr_sessionSetPaused (tr_session * session, bool isPaused)
{
  assert (tr_isSession (session));

  session->pauseAddedTorrent = isPaused;
}

bool
tr_sessionGetPaused (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->pauseAddedTorrent;
}

void
tr_sessionSetDeleteSource (tr_session * session, bool deleteSource)
{
  assert (tr_isSession (session));

  session->deleteSourceTorrent = deleteSource;
}

bool
tr_sessionGetDeleteSource (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->deleteSourceTorrent;
}

/***
****
***/

unsigned int
tr_sessionGetPieceSpeed_Bps (const tr_session * session, tr_direction dir)
{
  return tr_isSession (session) ? tr_bandwidthGetPieceSpeed_Bps (&session->bandwidth, 0, dir) : 0;
}

unsigned int
tr_sessionGetRawSpeed_Bps (const tr_session * session, tr_direction dir)
{
  return tr_isSession (session) ? tr_bandwidthGetRawSpeed_Bps (&session->bandwidth, 0, dir) : 0;
}
double
tr_sessionGetRawSpeed_KBps (const tr_session * session, tr_direction dir)
{
  return toSpeedKBps (tr_sessionGetRawSpeed_Bps (session, dir));
}


int
tr_sessionCountTorrents (const tr_session * session)
{
  return tr_isSession (session) ? session->torrentCount : 0;
}

tr_torrent **
tr_sessionGetTorrents (tr_session * session, int * setme_n)
{
  int i;
  int n;
  tr_torrent ** torrents;
  tr_torrent * tor;

  assert (tr_isSession (session));
  assert (setme_n != NULL);

  n = tr_sessionCountTorrents (session);
  *setme_n = n;

  torrents = tr_new (tr_torrent *, n);
  tor = NULL;
  for (i=0; i<n; ++i)
    torrents[i] = tor = tr_torrentNext (session, tor);

  return torrents;
} 

static int
compareTorrentByCur (const void * va, const void * vb)
{
  const tr_torrent * a = * (const tr_torrent**)va;
  const tr_torrent * b = * (const tr_torrent**)vb;
  const uint64_t aCur = a->downloadedCur + a->uploadedCur;
  const uint64_t bCur = b->downloadedCur + b->uploadedCur;

  if (aCur != bCur)
    return aCur > bCur ? -1 : 1; /* close the biggest torrents first */

  return 0;
}

static void closeBlocklists (tr_session *);

static void
sessionCloseImpl (void * vsession)
{
  int i, n;
  tr_torrent ** torrents;
  tr_session * session = vsession;

  assert (tr_isSession (session));

  session->isClosing = true;

  free_incoming_peer_port (session);

  if (session->isLPDEnabled)
    tr_lpdUninit (session);

  tr_utpClose (session);
  tr_dhtUninit (session);

  event_free (session->saveTimer);
  session->saveTimer = NULL;

  event_free (session->nowTimer);
  session->nowTimer = NULL;

  tr_verifyClose (session);
  tr_sharedClose (session);
  tr_rpcClose (&session->rpcServer);

  /* Close the torrents. Get the most active ones first so that
   * if we can't get them all closed in a reasonable amount of time,
   * at least we get the most important ones first. */
  torrents = tr_sessionGetTorrents (session, &n);
  qsort (torrents, n, sizeof (tr_torrent*), compareTorrentByCur);
  for (i=0; i<n; ++i)
    tr_torrentFree (torrents[i]);
  tr_free (torrents);

  /* Close the announcer *after* closing the torrents
     so that all the &event=stopped messages will be
     queued to be sent by tr_announcerClose () */
  tr_announcerClose (session);

  /* and this goes *after* announcer close so that
     it won't be idle until the announce events are sent... */
  tr_webClose (session, TR_WEB_CLOSE_WHEN_IDLE);

  tr_cacheFree (session->cache);
  session->cache = NULL;

  /* gotta keep udp running long enough to send out all
     the &event=stopped UDP tracker messages */
  while (!tr_tracker_udp_is_idle (session))
    {
      tr_tracker_udp_upkeep (session);
      tr_wait_msec (100);
    }

  /* we had to wait until UDP trackers were closed before closing these: */
  evdns_base_free (session->evdns_base, 0);
  session->evdns_base = NULL;
  tr_tracker_udp_close (session);
  tr_udpUninit (session);

  tr_statsClose (session);
  tr_peerMgrFree (session->peerMgr);

  closeBlocklists (session);

  tr_fdClose (session);

  session->isClosed = true;
}

static int
deadlineReached (const time_t deadline)
{
  return time (NULL) >= deadline;
}

#define SHUTDOWN_MAX_SECONDS 20

void
tr_sessionClose (tr_session * session)
{
  const time_t deadline = time (NULL) + SHUTDOWN_MAX_SECONDS;

  assert (tr_isSession (session));

  dbgmsg ("shutting down transmission session %p... now is %"TR_PRIuSIZE", deadline is %"TR_PRIuSIZE, (void*)session, (size_t)time (NULL), (size_t)deadline);

  /* close the session */
  tr_runInEventThread (session, sessionCloseImpl, session);
  while (!session->isClosed && !deadlineReached (deadline))
    {
      dbgmsg ("waiting for the libtransmission thread to finish");
      tr_wait_msec (100);
    }

  /* "shared" and "tracker" have live sockets,
   * so we need to keep the transmission thread alive
   * for a bit while they tell the router & tracker
   * that we're closing now */
  while ((session->shared || session->web || session->announcer || session->announcer_udp)
           && !deadlineReached (deadline))
    {
      dbgmsg ("waiting on port unmap (%p) or announcer (%p)... now %"TR_PRIuSIZE" deadline %"TR_PRIuSIZE,
              (void*)session->shared, (void*)session->announcer, (size_t)time (NULL), (size_t)deadline);
      tr_wait_msec (50);
    }

  tr_webClose (session, TR_WEB_CLOSE_NOW);

  /* close the libtransmission thread */
  tr_eventClose (session);
  while (session->events != NULL)
    {
      static bool forced = false;
      dbgmsg ("waiting for libtransmission thread to finish... now %"TR_PRIuSIZE" deadline %"TR_PRIuSIZE, (size_t)time (NULL), (size_t)deadline);
      tr_wait_msec (100);

      if (deadlineReached (deadline) && !forced)
        {
          dbgmsg ("calling event_loopbreak ()");
          forced = true;
          event_base_loopbreak (session->event_base);
        }

      if (deadlineReached (deadline+3))
        {
          dbgmsg ("deadline+3 reached... calling break...\n");
          break;
        }
    }

  /* free the session memory */
  tr_variantFree (&session->removedTorrents);
  tr_bandwidthDestruct (&session->bandwidth);
  tr_bitfieldDestruct (&session->turtle.minutes);
  tr_lockFree (session->lock);
  if (session->metainfoLookup)
    {
      tr_variantFree (session->metainfoLookup);
      tr_free (session->metainfoLookup);
    }
  tr_device_info_free (session->downloadDir);
  tr_free (session->torrentDoneScript);
  tr_free (session->tag);
  tr_free (session->configDir);
  tr_free (session->resumeDir);
  tr_free (session->torrentDir);
  tr_free (session->incompleteDir);
  tr_free (session->blocklist_url);
  tr_free (session->peer_congestion_algorithm);
  tr_free (session);
}

struct sessionLoadTorrentsData
{
  tr_session * session;
  tr_ctor * ctor;
  int * setmeCount;
  tr_torrent ** torrents;
  bool done;
};

static void
sessionLoadTorrents (void * vdata)
{
  int i;
  int n = 0;
  struct stat sb;
  DIR * odir = NULL;
  tr_list * l = NULL;
  tr_list * list = NULL;
  struct sessionLoadTorrentsData * data = vdata;
  const char * dirname = tr_getTorrentDir (data->session);

  assert (tr_isSession (data->session));

  tr_ctorSetSave (data->ctor, false); /* since we already have them */

  if (!stat (dirname, &sb)
      && S_ISDIR (sb.st_mode)
      && ((odir = opendir (dirname))))
    {
      struct dirent *d;
      for (d = readdir (odir); d != NULL; d = readdir (odir))
        {
          if (tr_str_has_suffix (d->d_name, ".torrent"))
            {
              tr_torrent * tor;
              char * path = tr_buildPath (dirname, d->d_name, NULL);
              tr_ctorSetMetainfoFromFile (data->ctor, path);
              if ((tor = tr_torrentNew (data->ctor, NULL, NULL)))
                {
                  tr_list_prepend (&list, tor);
                  ++n;
                }
              tr_free (path);
            }
        }
      closedir (odir);
    }

  data->torrents = tr_new (tr_torrent *, n);
  for (i=0, l=list; l!=NULL; l=l->next)
    data->torrents[i++] = (tr_torrent*) l->data;
  assert (i == n);

    tr_list_free (&list, NULL);

  if (n)
    tr_logAddInfo (_("Loaded %d torrents"), n);

  if (data->setmeCount)
    *data->setmeCount = n;

  data->done = true;
}

tr_torrent **
tr_sessionLoadTorrents (tr_session * session,
                        tr_ctor    * ctor,
                        int        * setmeCount)
{
  struct sessionLoadTorrentsData data;

  data.session = session;
  data.ctor = ctor;
  data.setmeCount = setmeCount;
  data.torrents = NULL;
  data.done = false;

  tr_runInEventThread (session, sessionLoadTorrents, &data);
  while (!data.done)
    tr_wait_msec (100);

  return data.torrents;
}

/***
****
***/

void
tr_sessionSetPexEnabled (tr_session * session, bool enabled)
{
  assert (tr_isSession (session));
  assert (tr_isBool (enabled));

  session->isPexEnabled = enabled;
}

bool
tr_sessionIsPexEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isPexEnabled;
}

bool
tr_sessionAllowsDHT (const tr_session * session)
{
  return tr_sessionIsDHTEnabled (session);
}

bool
tr_sessionIsDHTEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isDHTEnabled;
}

static void
toggleDHTImpl (void * data)
{
  tr_session * session = data;
  assert (tr_isSession (session));

  tr_udpUninit (session);
  session->isDHTEnabled = !session->isDHTEnabled;
  tr_udpInit (session);
}

void
tr_sessionSetDHTEnabled (tr_session * session, bool enabled)
{
  assert (tr_isSession (session));
  assert (tr_isBool (enabled));

  if (enabled != session->isDHTEnabled)
    tr_runInEventThread (session, toggleDHTImpl, session);
}

/***
****
***/

bool
tr_sessionIsUTPEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

#ifdef WITH_UTP
  return session->isUTPEnabled;
#else
  return false;
#endif
}

static void
toggle_utp (void * data)
{
  tr_session * session = data;

  assert (tr_isSession (session));

  session->isUTPEnabled = !session->isUTPEnabled;

  tr_udpSetSocketBuffers (session);

  /* But don't call tr_utpClose -- see reset_timer in tr-utp.c for an
     explanation. */
}

void
tr_sessionSetUTPEnabled (tr_session * session, bool enabled)
{
  assert (tr_isSession (session));
  assert (tr_isBool (enabled));

  if (enabled != session->isUTPEnabled)
    tr_runInEventThread (session, toggle_utp, session);
}

/***
****
***/

static void
toggleLPDImpl (void * data)
{
  tr_session * session = data;
  assert (tr_isSession (session));

  if (session->isLPDEnabled)
    tr_lpdUninit (session);

  session->isLPDEnabled = !session->isLPDEnabled;

  if (session->isLPDEnabled)
    tr_lpdInit (session, &session->public_ipv4->addr);
}

void
tr_sessionSetLPDEnabled (tr_session * session, bool enabled)
{
  assert (tr_isSession (session));
  assert (tr_isBool (enabled));

  if (enabled != session->isLPDEnabled)
    tr_runInEventThread (session, toggleLPDImpl, session);
}

bool
tr_sessionIsLPDEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isLPDEnabled;
}

bool
tr_sessionAllowsLPD (const tr_session * session)
{
  return tr_sessionIsLPDEnabled (session);
}

/***
****
***/

void
tr_sessionSetCacheLimit_MB (tr_session * session, int max_bytes)
{
  assert (tr_isSession (session));

  tr_cacheSetLimit (session->cache, toMemBytes (max_bytes));
}

int
tr_sessionGetCacheLimit_MB (const tr_session * session)
{
  assert (tr_isSession (session));

  return toMemMB (tr_cacheGetLimit (session->cache));
}

/***
****
***/

struct port_forwarding_data
{
  bool enabled;
  struct tr_shared * shared;
};

static void
setPortForwardingEnabled (void * vdata)
{
  struct port_forwarding_data * data = vdata;
  tr_sharedTraversalEnable (data->shared, data->enabled);
  tr_free (data);
}

void
tr_sessionSetPortForwardingEnabled (tr_session  * session, bool enabled)
{
  struct port_forwarding_data * d;
  d = tr_new0 (struct port_forwarding_data, 1);
  d->shared = session->shared;
  d->enabled = enabled;
  tr_runInEventThread (session, setPortForwardingEnabled, d);
}

bool
tr_sessionIsPortForwardingEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_sharedTraversalIsEnabled (session->shared);
}

/***
****
***/

static int
tr_stringEndsWith (const char * str, const char * end)
{
  const size_t slen = strlen (str);
  const size_t elen = strlen (end);

  return slen >= elen && !memcmp (&str[slen - elen], end, elen);
}

static void
loadBlocklists (tr_session * session)
{
  DIR * odir;
  char * dirname;
  struct dirent * d;
  tr_list * blocklists = NULL;
  tr_ptrArray loadme = TR_PTR_ARRAY_INIT;
  const bool isEnabled = session->isBlocklistEnabled;

  /* walk the blocklist directory... */
  dirname = tr_buildPath (session->configDir, "blocklists", NULL);
  odir = opendir (dirname);
  if (odir == NULL)
    {
      tr_free (dirname);
      return;
    }

  while ((d = readdir (odir)))
    {
      char * path;
      char * load = NULL;
 
      if (!d->d_name || (d->d_name[0]=='.')) /* ignore dotfiles */
        continue;

      path = tr_buildPath (dirname, d->d_name, NULL);

      if (tr_stringEndsWith (path, ".bin"))
        {
          load = tr_strdup (path);
        }
      else
        {
          char * binname;
          char * basename;
          time_t path_mtime = 0;
          time_t binname_mtime = 0;

          basename = tr_basename (d->d_name);
          binname = tr_strdup_printf ("%s" TR_PATH_DELIMITER_STR "%s.bin", dirname, basename);

          if (!tr_fileExists (binname, &binname_mtime)) /* create it */
            {
              tr_blocklistFile * b = tr_blocklistFileNew (binname, isEnabled);
              const int n = tr_blocklistFileSetContent (b, path);
              if (n > 0)
                load = tr_strdup (binname);

              tr_blocklistFileFree (b);
            }
          else if (tr_fileExists(path,&path_mtime) && (path_mtime>=binname_mtime)) /* update it */
            {
              char * old;
              tr_blocklistFile * b;

              old = tr_strdup_printf ("%s.old", binname);
              tr_remove (old);
              tr_rename (binname, old);
              b = tr_blocklistFileNew (binname, isEnabled);
              if (tr_blocklistFileSetContent (b, path) > 0)
                {
                  tr_remove (old);
                }
              else
                {
                  tr_remove (binname);
                  tr_rename (old, binname);
                }

              tr_blocklistFileFree (b);
              tr_free (old);
            }

          tr_free (basename);
          tr_free (binname);
        }

      if (load != NULL)
        {
          if (tr_ptrArrayFindSorted (&loadme, load, (PtrArrayCompareFunc)strcmp) == NULL)
            tr_ptrArrayInsertSorted (&loadme, load, (PtrArrayCompareFunc)strcmp);
          else
            tr_free (load);
        }

      tr_free (path);
    }

  if (!tr_ptrArrayEmpty (&loadme))
    {
      int i;
      const int n = tr_ptrArraySize (&loadme);
      const char ** paths = (const char **) tr_ptrArrayBase (&loadme);

      for (i=0; i<n; ++i)
        tr_list_append (&blocklists, tr_blocklistFileNew (paths[i], isEnabled));
    }

  /* cleanup */
  closedir (odir);
  tr_free (dirname);
  tr_ptrArrayDestruct (&loadme, (PtrArrayForeachFunc)tr_free);
  session->blocklists = blocklists;
}

static void
closeBlocklists (tr_session * session)
{
  tr_list_free (&session->blocklists, (TrListForeachFunc)tr_blocklistFileFree);
}

void
tr_sessionReloadBlocklists (tr_session * session)
{
  closeBlocklists (session);
  loadBlocklists (session);

  tr_peerMgrOnBlocklistChanged (session->peerMgr);
}

int
tr_blocklistGetRuleCount (const tr_session * session)
{
  tr_list * l;
  int n = 0;

  assert (tr_isSession (session));

  for (l = session->blocklists; l; l = l->next)
    n += tr_blocklistFileGetRuleCount (l->data);

  return n;
}

bool
tr_blocklistIsEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isBlocklistEnabled;
}

void
tr_blocklistSetEnabled (tr_session * session, bool isEnabled)
{
  tr_list * l;

  assert (tr_isSession (session));
  assert (tr_isBool (isEnabled));

  session->isBlocklistEnabled = isEnabled;

  for (l=session->blocklists; l!=NULL; l=l->next)
    tr_blocklistFileSetEnabled (l->data, isEnabled);
}

bool
tr_blocklistExists (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->blocklists != NULL;
}

int
tr_blocklistSetContent (tr_session * session, const char * contentFilename)
{
  tr_list * l;
  int ruleCount;
  tr_blocklistFile * b;
  const char * defaultName = DEFAULT_BLOCKLIST_FILENAME;
  tr_sessionLock (session);

  for (b=NULL, l=session->blocklists; !b && l; l=l->next)
    if (tr_stringEndsWith (tr_blocklistFileGetFilename (l->data), defaultName))
      b = l->data;

  if (!b)
    {
      char * path = tr_buildPath (session->configDir, "blocklists", defaultName, NULL);
      b = tr_blocklistFileNew (path, session->isBlocklistEnabled);
      tr_list_append (&session->blocklists, b);
      tr_free (path);
    }

  ruleCount = tr_blocklistFileSetContent (b, contentFilename);
  tr_sessionUnlock (session);
  return ruleCount;
}

bool
tr_sessionIsAddressBlocked (const tr_session * session,
                            const tr_address * addr)
{
  tr_list * l;

  assert (tr_isSession (session));

  for (l = session->blocklists; l; l = l->next)
    if (tr_blocklistFileHasAddress (l->data, addr))
      return true;

  return false;
}

void
tr_blocklistSetURL (tr_session * session, const char * url)
{
  if (session->blocklist_url != url)
    {
      tr_free (session->blocklist_url);
      session->blocklist_url = tr_strdup (url);
    }
}

const char *
tr_blocklistGetURL (const tr_session * session)
{
  return session->blocklist_url;
}


/***
****
***/

static void
metainfoLookupInit (tr_session * session)
{
  struct stat sb;
  const char * dirname = tr_getTorrentDir (session);
  DIR * odir = NULL;
  tr_ctor * ctor = NULL;
  tr_variant * lookup;
  int n = 0;

  assert (tr_isSession (session));

  /* walk through the directory and find the mappings */
  lookup = tr_new0 (tr_variant, 1);
  tr_variantInitDict (lookup, 0);
  ctor = tr_ctorNew (session);
  tr_ctorSetSave (ctor, false); /* since we already have them */
  if (!stat (dirname, &sb) && S_ISDIR (sb.st_mode) && ((odir = opendir (dirname))))
    {
      struct dirent *d;
      while ((d = readdir (odir)))
        {
          if (tr_str_has_suffix (d->d_name, ".torrent"))
            {
              tr_info inf;
              char * path = tr_buildPath (dirname, d->d_name, NULL);
              tr_ctorSetMetainfoFromFile (ctor, path);
              if (!tr_torrentParse (ctor, &inf))
                {
                  ++n;
                  tr_variantDictAddStr (lookup, tr_quark_new(inf.hashString,-1), path);
                }
              tr_free (path);
            }
        }
      closedir (odir);
    }
  tr_ctorFree (ctor);

  session->metainfoLookup = lookup;
  tr_logAddDebug ("Found %d torrents in \"%s\"", n, dirname);
}

const char*
tr_sessionFindTorrentFile (const tr_session * session,
                           const char       * hashString)
{
  const char * filename = NULL;

  if (!session->metainfoLookup)
    metainfoLookupInit ((tr_session*)session);
  tr_variantDictFindStr (session->metainfoLookup, tr_quark_new(hashString,-1), &filename, NULL);

  return filename;
}

void
tr_sessionSetTorrentFile (tr_session * session,
                          const char * hashString,
                          const char * filename)
{
  /* since we walk session->configDir/torrents/ to build the lookup table,
   * and tr_sessionSetTorrentFile () is just to tell us there's a new file
   * in that same directory, we don't need to do anything here if the
   * lookup table hasn't been built yet */
  if (session->metainfoLookup)
    tr_variantDictAddStr (session->metainfoLookup, tr_quark_new(hashString,-1), filename);
}

/***
****
***/

void
tr_sessionSetRPCEnabled (tr_session * session, bool isEnabled)
{
  assert (tr_isSession (session));

  tr_rpcSetEnabled (session->rpcServer, isEnabled);
}

bool
tr_sessionIsRPCEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcIsEnabled (session->rpcServer);
}

void
tr_sessionSetRPCPort (tr_session * session,
                      tr_port      port)
{
  assert (tr_isSession (session));

  tr_rpcSetPort (session->rpcServer, port);
}

tr_port
tr_sessionGetRPCPort (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetPort (session->rpcServer);
}

void
tr_sessionSetRPCUrl (tr_session * session,
                     const char * url)
{
  assert (tr_isSession (session));

  tr_rpcSetUrl (session->rpcServer, url);
}

const char*
tr_sessionGetRPCUrl (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetUrl (session->rpcServer);
}

void
tr_sessionSetRPCCallback (tr_session * session,
                          tr_rpc_func  func,
                          void *       user_data)
{
  assert (tr_isSession (session));

  session->rpc_func = func;
  session->rpc_func_user_data = user_data;
}

void
tr_sessionSetRPCWhitelist (tr_session * session,
                           const char * whitelist)
{
  assert (tr_isSession (session));

  tr_rpcSetWhitelist (session->rpcServer, whitelist);
}

const char*
tr_sessionGetRPCWhitelist (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetWhitelist (session->rpcServer);
}

void
tr_sessionSetRPCWhitelistEnabled (tr_session * session, bool isEnabled)
{
  assert (tr_isSession (session));

  tr_rpcSetWhitelistEnabled (session->rpcServer, isEnabled);
}

bool
tr_sessionGetRPCWhitelistEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetWhitelistEnabled (session->rpcServer);
}


void
tr_sessionSetRPCPassword (tr_session * session,
                          const char * password)
{
  assert (tr_isSession (session));

  tr_rpcSetPassword (session->rpcServer, password);
}

const char*
tr_sessionGetRPCPassword (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetPassword (session->rpcServer);
}

void
tr_sessionSetRPCUsername (tr_session * session,
                          const char * username)
{
  assert (tr_isSession (session));

  tr_rpcSetUsername (session->rpcServer, username);
}

const char*
tr_sessionGetRPCUsername (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetUsername (session->rpcServer);
}

void
tr_sessionSetRPCPasswordEnabled (tr_session * session, bool isEnabled)
{
  assert (tr_isSession (session));

  tr_rpcSetPasswordEnabled (session->rpcServer, isEnabled);
}

bool
tr_sessionIsRPCPasswordEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcIsPasswordEnabled (session->rpcServer);
}

const char *
tr_sessionGetRPCBindAddress (const tr_session * session)
{
  assert (tr_isSession (session));

  return tr_rpcGetBindAddress (session->rpcServer);
}

/****
*****
****/

bool
tr_sessionIsTorrentDoneScriptEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->isTorrentDoneScriptEnabled;
}

void
tr_sessionSetTorrentDoneScriptEnabled (tr_session * session, bool isEnabled)
{
  assert (tr_isSession (session));
  assert (tr_isBool (isEnabled));

  session->isTorrentDoneScriptEnabled = isEnabled;
}

const char *
tr_sessionGetTorrentDoneScript (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->torrentDoneScript;
}

void
tr_sessionSetTorrentDoneScript (tr_session * session, const char * scriptFilename)
{
  assert (tr_isSession (session));

  if (session->torrentDoneScript != scriptFilename)
    {
      tr_free (session->torrentDoneScript);
      session->torrentDoneScript = tr_strdup (scriptFilename);
    }
}

/***
****
***/

void
tr_sessionSetQueueSize (tr_session * session, tr_direction dir, int n)
{
  assert (tr_isSession (session));
  assert (tr_isDirection (dir));

  session->queueSize[dir] = n;
}

int
tr_sessionGetQueueSize (const tr_session * session, tr_direction dir)
{
  assert (tr_isSession (session));
  assert (tr_isDirection (dir));

  return session->queueSize[dir];
}

void
tr_sessionSetQueueEnabled (tr_session * session, tr_direction dir, bool is_enabled)
{
  assert (tr_isSession (session));
  assert (tr_isDirection (dir));
  assert (tr_isBool (is_enabled));

  session->queueEnabled[dir] = is_enabled;
}

bool
tr_sessionGetQueueEnabled (const tr_session * session, tr_direction dir)
{
  assert (tr_isSession (session));
  assert (tr_isDirection (dir));

  return session->queueEnabled[dir];
}

void
tr_sessionSetQueueStalledMinutes (tr_session * session, int minutes)
{
  assert (tr_isSession (session));
  assert (minutes > 0);

  session->queueStalledMinutes = minutes;
}

void
tr_sessionSetQueueStalledEnabled (tr_session * session, bool is_enabled)
{
  assert (tr_isSession (session));
  assert (tr_isBool (is_enabled));

  session->stalledEnabled = is_enabled;
}

bool
tr_sessionGetQueueStalledEnabled (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->stalledEnabled;
}

int
tr_sessionGetQueueStalledMinutes (const tr_session * session)
{
  assert (tr_isSession (session));

  return session->queueStalledMinutes;
}

struct TorrentAndPosition
{
  tr_torrent * tor;
  int position;
};

static int
compareTorrentAndPositions (const void * va, const void * vb)
{
  int ret;
  const struct TorrentAndPosition * a = va;
  const struct TorrentAndPosition * b = vb;

  if (a->position > b->position)
    ret = 1;
  else if (a->position < b->position)
    ret = -1;
  else
    ret = 0;

  return ret;
}


void
tr_sessionGetNextQueuedTorrents (tr_session   * session,
                                 tr_direction   direction,
                                 size_t         num_wanted,
                                 tr_ptrArray  * setme)
{
  size_t i;
  size_t n;
  tr_torrent * tor;
  struct TorrentAndPosition * candidates;

  assert (tr_isSession (session));
  assert (tr_isDirection (direction));

  /* build an array of the candidates */
  n = tr_sessionCountTorrents (session);
  candidates = tr_new (struct TorrentAndPosition, n);
  i = 0;
  tor = NULL;
  while ((tor = tr_torrentNext (session, tor)))
    {
      if (!tr_torrentIsQueued (tor))
        continue;

      if (direction != tr_torrentGetQueueDirection (tor))
        continue;

      candidates[i].tor = tor;
      candidates[i].position = tr_torrentGetQueuePosition (tor);
      ++i;
    }

  /* find the best n candidates */
  if (num_wanted > i)
    num_wanted = i;
  else if (num_wanted < i)
    tr_quickfindFirstK (candidates, i,
                        sizeof(struct TorrentAndPosition),
                        compareTorrentAndPositions, num_wanted);

  /* add them to the return array */
  for (i=0; i<num_wanted; ++i)
    tr_ptrArrayAppend (setme, candidates[i].tor);

  /* cleanup */
  tr_free (candidates);
}

int
tr_sessionCountQueueFreeSlots (tr_session * session, tr_direction dir)
{
  tr_torrent * tor;
  int active_count;
  const int max = tr_sessionGetQueueSize (session, dir);
  const tr_torrent_activity activity = dir == TR_UP ? TR_STATUS_SEED : TR_STATUS_DOWNLOAD;

  if (!tr_sessionGetQueueEnabled (session, dir))
    return INT_MAX;

    tor = NULL;
    active_count = 0;
    while ((tor = tr_torrentNext (session, tor)))
        if (!tr_torrentIsStalled (tor))
            if (tr_torrentGetActivity (tor) == activity)
                ++active_count;

    if (active_count >= max)
        return 0;

    return max - active_count;
}