/* This software was written by Dirk Engling <erdgeist@erdgeist.org>
 It is considered beerware. Prost. Skol. Cheers or whatever.

 $id$ */

/* System */
#include <arpa/inet.h>
#include <inttypes.h>
#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <sys/uio.h>
#include <unistd.h>
#ifdef WANT_SYSLOGS
#include <syslog.h>
#endif

/* Libowfat */
#include "byte.h"
#include "io.h"
#include "ip4.h"
#include "ip6.h"

/* Opentracker */
#include "ot_accesslist.h"
#include "ot_iovec.h"
#include "ot_mutex.h"
#include "ot_stats.h"
#include "trackerlogic.h"

#ifndef NO_FULLSCRAPE_LOGGING
#define LOG_TO_STDERR(...) fprintf(stderr, __VA_ARGS__)
#else
#define LOG_TO_STDERR(...)
#endif

/* Forward declaration */
static void stats_make(int *iovec_entries, struct iovec **iovector, ot_tasktype mode);
#define OT_STATS_TMPSIZE 8192

/* Clumsy counters... to be rethought */
static unsigned long long ot_overall_tcp_connections;
static unsigned long long ot_overall_udp_connections;
static unsigned long long ot_overall_tcp_successfulannounces;
static unsigned long long ot_overall_udp_successfulannounces;
static unsigned long long ot_overall_tcp_successfulscrapes;
static unsigned long long ot_overall_udp_successfulscrapes;
static unsigned long long ot_overall_udp_connectionidmissmatches;
static unsigned long long ot_overall_tcp_connects;
static unsigned long long ot_overall_udp_connects;
static unsigned long long ot_overall_completed;
static unsigned long long ot_full_scrape_count;
static unsigned long long ot_full_scrape_request_count;
static unsigned long long ot_full_scrape_size;
static unsigned long long ot_failed_request_counts[CODE_HTTPERROR_COUNT];
static char              *ot_failed_request_names[] = {
    "302 Redirect", "400 Parse Error", "400 Invalid Parameter", "400 Invalid Parameter (compact=0)", "400 Not Modest",
    "402 Payment Required", "403 Access Denied", "404 Not found", "500 Internal Server Error"};
static unsigned long long ot_renewed[OT_PEER_TIMEOUT];
static unsigned long long ot_overall_sync_count;
static unsigned long long ot_overall_stall_count;

static time_t             ot_start_time;

#define STATS_NETWORK_NODE_BITWIDTH 4
#define STATS_NETWORK_NODE_COUNT    (1 << STATS_NETWORK_NODE_BITWIDTH)

#define __BYTE(P, D)                (((uint8_t *)P)[D / 8])
#define __MSK                       (STATS_NETWORK_NODE_COUNT - 1)
#define __SHFT(D)                   ((D ^ STATS_NETWORK_NODE_BITWIDTH) & STATS_NETWORK_NODE_BITWIDTH)

#define __LDR(P, D)                 ((__BYTE((P), (D)) >> __SHFT((D))) & __MSK)
#define __STR(P, D, V)              __BYTE((P), (D)) = (__BYTE((P), (D)) & ~(__MSK << __SHFT((D)))) | ((V) << __SHFT((D)))

#if 0
// XXX
#define STATS_NETWORK_NODE_MAXDEPTH (68 - STATS_NETWORK_NODE_BITWIDTH)
#define STATS_NETWORK_NODE_LIMIT    (48 - STATS_NETWORK_NODE_BITWIDTH)
#endif
#define STATS_NETWORK_NODE_MAXDEPTH (28 - STATS_NETWORK_NODE_BITWIDTH)
#define STATS_NETWORK_NODE_LIMIT    (24 - STATS_NETWORK_NODE_BITWIDTH)

typedef union stats_network_node stats_network_node;
union stats_network_node {
  size_t              counters[STATS_NETWORK_NODE_COUNT];
  stats_network_node *children[STATS_NETWORK_NODE_COUNT];
};

#ifdef WANT_LOG_NETWORKS
static stats_network_node *stats_network_counters_root;
#endif

static int stat_increase_network_count(stats_network_node **pnode, int depth, uintptr_t ip) {
  int                 foo = __LDR(ip, depth);
  stats_network_node *node;

  if (!*pnode) {
    *pnode = malloc(sizeof(stats_network_node));
    if (!*pnode)
      return -1;
    memset(*pnode, 0, sizeof(stats_network_node));
  }
  node = *pnode;

  if (depth < STATS_NETWORK_NODE_MAXDEPTH)
    return stat_increase_network_count(node->children + foo, depth + STATS_NETWORK_NODE_BITWIDTH, ip);

  node->counters[foo]++;
  return 0;
}

static int stats_shift_down_network_count(stats_network_node **node, int depth, int shift) {
  int i, rest = 0;

  if (!*node)
    return 0;

  for (i = 0; i < STATS_NETWORK_NODE_COUNT; ++i)
    if (depth < STATS_NETWORK_NODE_MAXDEPTH)
      rest += stats_shift_down_network_count((*node)->children + i, depth + STATS_NETWORK_NODE_BITWIDTH, shift);
    else
      rest += (*node)->counters[i] >>= shift;

  if (!rest) {
    free(*node);
    *node = NULL;
  }

  return rest;
}

static size_t stats_get_highscore_networks(stats_network_node *node, int depth, ot_ip6 node_value, size_t *scores, ot_ip6 *networks, int network_count,
                                           int limit) {
  size_t score = 0;
  int    i;

  if (!node)
    return 0;

  if (depth < limit) {
    for (i = 0; i < STATS_NETWORK_NODE_COUNT; ++i)
      if (node->children[i]) {
        __STR(node_value, depth, i);
        score += stats_get_highscore_networks(node->children[i], depth + STATS_NETWORK_NODE_BITWIDTH, node_value, scores, networks, network_count, limit);
      }
    return score;
  }

  if (depth > limit && depth < STATS_NETWORK_NODE_MAXDEPTH) {
    for (i = 0; i < STATS_NETWORK_NODE_COUNT; ++i)
      if (node->children[i])
        score += stats_get_highscore_networks(node->children[i], depth + STATS_NETWORK_NODE_BITWIDTH, node_value, scores, networks, network_count, limit);
    return score;
  }

  if (depth > limit && depth == STATS_NETWORK_NODE_MAXDEPTH) {
    for (i = 0; i < STATS_NETWORK_NODE_COUNT; ++i)
      score += node->counters[i];
    return score;
  }

  /* if( depth == limit ) */
  for (i = 0; i < STATS_NETWORK_NODE_COUNT; ++i) {
    int    j = 1;
    size_t node_score;

    if (depth == STATS_NETWORK_NODE_MAXDEPTH)
      node_score = node->counters[i];
    else
      node_score = stats_get_highscore_networks(node->children[i], depth + STATS_NETWORK_NODE_BITWIDTH, node_value, scores, networks, network_count, limit);

    score += node_score;

    if (node_score <= scores[0])
      continue;

    __STR(node_value, depth, i);
    while (j < network_count && node_score > scores[j])
      ++j;
    --j;

    memcpy(scores, scores + 1, j * sizeof(*scores));
    memcpy(networks, networks + 1, j * sizeof(*networks));
    scores[j] = node_score;
    memcpy(networks + j, node_value, sizeof(*networks));
  }

  return score;
}

static size_t stats_return_busy_networks(char *reply, stats_network_node *tree, int amount, int limit) {
  ot_ip6 networks[amount];
  ot_ip6 node_value;
  size_t scores[amount];
  int    i;
  char  *r = reply;

  memset(scores, 0, sizeof(scores));
  memset(networks, 0, sizeof(networks));
  memset(node_value, 0, sizeof(node_value));

  stats_get_highscore_networks(tree, 0, node_value, scores, networks, amount, limit);

  r += sprintf(r, "Networks, limit /%d:\n", limit + STATS_NETWORK_NODE_BITWIDTH);
  for (i = amount - 1; i >= 0; --i) {
    if (scores[i]) {
      r += sprintf(r, "%08zd: ", scores[i]);
      // #ifdef WANT_V6
      r += fmt_ip6c(r, networks[i]);
#if 0
    // XXX
      r += fmt_ip4( r, networks[i]);
#endif
      *r++ = '\n';
    }
  }
  *r++ = '\n';

  return r - reply;
}

static size_t stats_slash24s_txt(char *reply, size_t amount) {
  stats_network_node *slash24s_network_counters_root = NULL;
  char  *r = reply;
  int    bucket;
  size_t i, peer_size = OT_PEER_SIZE4;

  for (bucket = 0; bucket < OT_BUCKET_COUNT; ++bucket) {
    ot_vector *torrents_list = mutex_bucket_lock(bucket);
    for (i = 0; i < torrents_list->size; ++i) {
      ot_peerlist *peer_list   = (((ot_torrent *)(torrents_list->data))[i]).peer_list4;
      ot_vector   *bucket_list = &peer_list->peers;
      int          num_buckets = 1;

      if (OT_PEERLIST_HASBUCKETS(peer_list)) {
        num_buckets = bucket_list->size;
        bucket_list = (ot_vector *)bucket_list->data;
      }

      while (num_buckets--) {
        ot_peer *peers    = (ot_peer *)bucket_list->data;
        size_t   numpeers = bucket_list->size;
        while (numpeers--) {
          if (stat_increase_network_count(&slash24s_network_counters_root, 0, (uintptr_t)(peers)))
            goto bailout_unlock;
          peers += peer_size;
        }
        ++bucket_list;
      }
    }
    mutex_bucket_unlock(bucket, 0);
    if (!g_opentracker_running)
      goto bailout_error;
  }

  /* The tree is built. Now analyze */
  r += stats_return_busy_networks(r, slash24s_network_counters_root, amount, STATS_NETWORK_NODE_MAXDEPTH);
  r += stats_return_busy_networks(r, slash24s_network_counters_root, amount, STATS_NETWORK_NODE_LIMIT);
  goto success;

bailout_unlock:
  mutex_bucket_unlock(bucket, 0);
bailout_error:
  r = reply;
success:
  stats_shift_down_network_count(&slash24s_network_counters_root, 0, sizeof(int) * 8 - 1);

  return r - reply;
}

#ifdef WANT_SPOT_WOODPECKER
static stats_network_node *stats_woodpeckers_tree;
static pthread_mutex_t     g_woodpeckers_mutex = PTHREAD_MUTEX_INITIALIZER;

static size_t              stats_return_woodpeckers(char *reply, int amount) {
  char *r = reply;

  pthread_mutex_lock(&g_woodpeckers_mutex);
  r += stats_return_busy_networks(r, stats_woodpeckers_tree, amount, STATS_NETWORK_NODE_MAXDEPTH);
  pthread_mutex_unlock(&g_woodpeckers_mutex);
  return r - reply;
}
#endif

typedef struct {
  unsigned long long torrent_count;
  unsigned long long peer_count;
  unsigned long long seed_count;
} torrent_stats;

static int torrent_statter(ot_torrent *torrent, uintptr_t data) {
  torrent_stats *stats = (torrent_stats *)data;
  stats->torrent_count++;
  stats->peer_count += torrent->peer_list6->peer_count + torrent->peer_list4->peer_count;
  stats->seed_count += torrent->peer_list6->seed_count + torrent->peer_list4->seed_count;
  return 0;
}

/* Converter function from memory to human readable hex strings */
static char *to_hex(char *d, uint8_t *s) {
  char *m = "0123456789ABCDEF";
  char *t = d;
  char *e = d + 40;
  while (d < e) {
    *d++ = m[*s >> 4];
    *d++ = m[*s++ & 15];
  }
  *d = 0;
  return t;
}

typedef struct {
  size_t  val;
  ot_hash hash;
} ot_record;

/* Fetches stats from tracker */
size_t stats_top_txt(char *reply, int amount) {
  size_t    j;
  ot_record top100s[100], top100c[100];
  char     *r = reply, hex_out[42];
  int       idx, bucket;

  if (amount > 100)
    amount = 100;

  byte_zero(top100s, sizeof(top100s));
  byte_zero(top100c, sizeof(top100c));

  for (bucket = 0; bucket < OT_BUCKET_COUNT; ++bucket) {
    ot_vector *torrents_list = mutex_bucket_lock(bucket);
    for (j = 0; j < torrents_list->size; ++j) {
      ot_torrent *torrent    = (ot_torrent *)(torrents_list->data) + j;
      size_t      peer_count = torrent->peer_list6->peer_count + torrent->peer_list4->peer_count;
      size_t      seed_count = torrent->peer_list6->seed_count + torrent->peer_list4->seed_count;
      idx                    = amount - 1;
      while ((idx >= 0) && (peer_count > top100c[idx].val))
        --idx;
      if (idx++ != amount - 1) {
        memmove(top100c + idx + 1, top100c + idx, (amount - 1 - idx) * sizeof(ot_record));
        memcpy(&top100c[idx].hash, &torrent->hash, sizeof(ot_hash));
        top100c[idx].val = peer_count;
      }
      idx = amount - 1;
      while ((idx >= 0) && (seed_count > top100s[idx].val))
        --idx;
      if (idx++ != amount - 1) {
        memmove(top100s + idx + 1, top100s + idx, (amount - 1 - idx) * sizeof(ot_record));
        memcpy(&top100s[idx].hash, &torrent->hash, sizeof(ot_hash));
        top100s[idx].val = seed_count;
      }
    }
    mutex_bucket_unlock(bucket, 0);
    if (!g_opentracker_running)
      return 0;
  }

  r += sprintf(r, "Top %d torrents by peers:\n", amount);
  for (idx = 0; idx < amount; ++idx)
    if (top100c[idx].val)
      r += sprintf(r, "\t%zd\t%s\n", top100c[idx].val, to_hex(hex_out, top100c[idx].hash));
  r += sprintf(r, "Top %d torrents by seeds:\n", amount);
  for (idx = 0; idx < amount; ++idx)
    if (top100s[idx].val)
      r += sprintf(r, "\t%zd\t%s\n", top100s[idx].val, to_hex(hex_out, top100s[idx].hash));

  return r - reply;
}

static unsigned long events_per_time(unsigned long long events, time_t t) { return events / ((unsigned int)t ? (unsigned int)t : 1); }

static size_t        stats_connections_mrtg(char *reply) {
  ot_time t = time(NULL) - ot_start_time;
  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker connections, %lu conns/s :: %lu success/s.",
                        ot_overall_tcp_connections + ot_overall_udp_connections,
                        ot_overall_tcp_successfulannounces + ot_overall_udp_successfulannounces + ot_overall_udp_connects, (int)t, (int)(t / 3600),
                        events_per_time(ot_overall_tcp_connections + ot_overall_udp_connections, t),
                        events_per_time(ot_overall_tcp_successfulannounces + ot_overall_udp_successfulannounces + ot_overall_udp_connects, t));
}

static size_t stats_udpconnections_mrtg(char *reply) {
  ot_time t = time(NULL) - ot_start_time;
  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker udp4 stats, %lu conns/s :: %lu success/s.", ot_overall_udp_connections,
                 ot_overall_udp_successfulannounces + ot_overall_udp_connects, (int)t, (int)(t / 3600), events_per_time(ot_overall_udp_connections, t),
                 events_per_time(ot_overall_udp_successfulannounces + ot_overall_udp_connects, t));
}

static size_t stats_tcpconnections_mrtg(char *reply) {
  time_t t = time(NULL) - ot_start_time;
  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker tcp4 stats, %lu conns/s :: %lu success/s.", ot_overall_tcp_connections,
                 ot_overall_tcp_successfulannounces, (int)t, (int)(t / 3600), events_per_time(ot_overall_tcp_connections, t),
                 events_per_time(ot_overall_tcp_successfulannounces, t));
}

static size_t stats_scrape_mrtg(char *reply) {
  time_t t = time(NULL) - ot_start_time;
  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker scrape stats, %lu scrape/s (tcp and udp)", ot_overall_tcp_successfulscrapes,
                 ot_overall_udp_successfulscrapes, (int)t, (int)(t / 3600),
                 events_per_time((ot_overall_tcp_successfulscrapes + ot_overall_udp_successfulscrapes), t));
}

static size_t stats_fullscrapes_mrtg(char *reply) {
  ot_time t = time(NULL) - ot_start_time;
  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker full scrape stats, %lu conns/s :: %lu bytes/s.", ot_full_scrape_count * 1000,
                 ot_full_scrape_size, (int)t, (int)(t / 3600), events_per_time(ot_full_scrape_count, t), events_per_time(ot_full_scrape_size, t));
}

static size_t stats_peers_mrtg(char *reply) {
  torrent_stats stats = {0, 0, 0};

  iterate_all_torrents(torrent_statter, (uintptr_t)&stats);

  return sprintf(reply, "%llu\n%llu\nopentracker serving %llu torrents\nopentracker", stats.peer_count, stats.seed_count, stats.torrent_count);
}

static size_t stats_torrents_mrtg(char *reply) {
  size_t torrent_count = mutex_get_torrent_count();

  return sprintf(reply, "%zd\n%zd\nopentracker serving %zd torrents\nopentracker", torrent_count, (size_t)0, torrent_count);
}

static size_t stats_httperrors_txt(char *reply) {
  return sprintf(reply, "302 RED %llu\n400 ... %llu\n400 PAR %llu\n400 COM %llu\n403 IP  %llu\n404 INV %llu\n500 SRV %llu\n", ot_failed_request_counts[0],
                 ot_failed_request_counts[1], ot_failed_request_counts[2], ot_failed_request_counts[3], ot_failed_request_counts[4],
                 ot_failed_request_counts[5], ot_failed_request_counts[6]);
}

static size_t stats_return_renew_bucket(char *reply) {
  char *r = reply;
  int   i;

  for (i = 0; i < OT_PEER_TIMEOUT; ++i)
    r += sprintf(r, "%02i %llu\n", i, ot_renewed[i]);
  return r - reply;
}

static size_t stats_return_sync_mrtg(char *reply) {
  ot_time t = time(NULL) - ot_start_time;
  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker connections, %lu conns/s :: %lu success/s.", ot_overall_sync_count, 0LL, (int)t,
                 (int)(t / 3600), events_per_time(ot_overall_tcp_connections + ot_overall_udp_connections, t),
                 events_per_time(ot_overall_tcp_successfulannounces + ot_overall_udp_successfulannounces + ot_overall_udp_connects, t));
}

static size_t stats_return_completed_mrtg(char *reply) {
  ot_time t = time(NULL) - ot_start_time;

  return sprintf(reply, "%llu\n%llu\n%i seconds (%i hours)\nopentracker, %lu completed/h.", ot_overall_completed, 0LL, (int)t, (int)(t / 3600),
                 events_per_time(ot_overall_completed, t / 3600));
}

#ifdef WANT_LOG_NUMWANT
extern unsigned long long numwants[201];
static size_t             stats_return_numwants(char *reply) {
  char *r = reply;
  int   i;
  for (i = 0; i <= 200; ++i)
    r += sprintf(r, "%03d => %lld\n", i, numwants[i]);
  return r - reply;
}
#endif

#ifdef WANT_FULLLOG_NETWORKS
static void stats_return_fulllog(int *iovec_entries, struct iovec **iovector, char *r) {
  ot_log *loglist  = g_logchain_first, *llnext;
  char   *re       = r + OT_STATS_TMPSIZE;

  g_logchain_first = g_logchain_last = 0;

  while (loglist) {
    if (r + (loglist->size + 64) >= re) {
      r = iovec_fix_increase_or_free(iovec_entries, iovector, r, 32 * OT_STATS_TMPSIZE);
      if (!r)
        return;
      re = r + 32 * OT_STATS_TMPSIZE;
    }
    r      += sprintf(r, "%08ld: ", loglist->time);
    r      += fmt_ip6c(r, loglist->ip);
    *r++    = '\n';
    memcpy(r, loglist->data, loglist->size);
    r      += loglist->size;
    *r++    = '\n';
    *r++    = '*';
    *r++    = '\n';
    *r++    = '\n';

    llnext  = loglist->next;
    free(loglist->data);
    free(loglist);
    loglist = llnext;
  }
  iovec_fixlast(iovec_entries, iovector, r);
}
#endif

static size_t stats_return_everything(char *reply) {
  torrent_stats stats = {0, 0, 0};
  int           i;
  char         *r = reply;

  iterate_all_torrents(torrent_statter, (uintptr_t)&stats);

  r += sprintf(r, "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n");
  r += sprintf(r, "<stats>\n");
  r += sprintf(r, "  <tracker_id>%" PRIu32 "</tracker_id>\n", g_tracker_id);
  r += sprintf(r, "  <version>\n");
  r += stats_return_tracker_version(r);
  r += sprintf(r, "  </version>\n");
  r += sprintf(r, "  <uptime>%llu</uptime>\n", (unsigned long long)(time(NULL) - ot_start_time));
  r += sprintf(r, "  <torrents>\n");
  r += sprintf(r, "    <count_mutex>%zd</count_mutex>\n", mutex_get_torrent_count());
  r += sprintf(r, "    <count_iterator>%llu</count_iterator>\n", stats.torrent_count);
  r += sprintf(r, "  </torrents>\n");
  r += sprintf(r, "  <peers>\n    <count>%llu</count>\n  </peers>\n", stats.peer_count);
  r += sprintf(r, "  <seeds>\n    <count>%llu</count>\n  </seeds>\n", stats.seed_count);
  r += sprintf(r, "  <completed>\n    <count>%llu</count>\n  </completed>\n", ot_overall_completed);
  r += sprintf(r, "  <connections>\n");
  r += sprintf(r, "    <tcp>\n      <accept>%llu</accept>\n      <announce>%llu</announce>\n      <scrape>%llu</scrape>\n    </tcp>\n",
      ot_overall_tcp_connections, ot_overall_tcp_successfulannounces, ot_overall_tcp_successfulscrapes);
  r += sprintf(r, "    <udp>\n      <overall>%llu</overall>\n      <connect>%llu</connect>\n      <announce>%llu</announce>\n      <scrape>%llu</scrape>\n      <missmatch>%llu</missmatch>\n    </udp>\n",
      ot_overall_udp_connections, ot_overall_udp_connects, ot_overall_udp_successfulannounces, ot_overall_udp_successfulscrapes,
      ot_overall_udp_connectionidmissmatches);
  r += sprintf(r, "    <livesync>\n      <count>%llu</count>\n    </livesync>\n", ot_overall_sync_count);
  r += sprintf(r, "  </connections>\n");
  r += sprintf(r, "  <debug>\n");
  r += sprintf(r, "    <renew>\n");
  for (i = 0; i < OT_PEER_TIMEOUT; ++i)
    r += sprintf(r, "      <count interval=\"%02i\">%llu</count>\n", i, ot_renewed[i]);
  r += sprintf(r, "    </renew>\n");
  r += sprintf(r, "    <http_error>\n");
  for (i = 0; i < CODE_HTTPERROR_COUNT; ++i)
    r += sprintf(r, "      <count code=\"%s\">%llu</count>\n", ot_failed_request_names[i], ot_failed_request_counts[i]);
  r += sprintf(r, "    </http_error>\n");
  r += sprintf(r, "    <mutex_stall>\n      <count>%llu</count>\n    </mutex_stall>\n", ot_overall_stall_count);
  r += sprintf(r, "  </debug>\n");
  r += sprintf(r, "</stats>");
  return r - reply;
}

size_t stats_return_tracker_version(char *reply) {
#define QUOTE(name) #name
#define SQUOTE(name) QUOTE(name)
  return sprintf(reply, "https://erdgeist.org/gitweb/opentracker/commit/?id=" SQUOTE(GIT_VERSION) "\n");
}

size_t return_stats_for_tracker(char *reply, int mode, int format) {
  (void)format;
  switch (mode & TASK_TASK_MASK) {
  case TASK_STATS_CONNS:
    return stats_connections_mrtg(reply);
  case TASK_STATS_SCRAPE:
    return stats_scrape_mrtg(reply);
  case TASK_STATS_UDP:
    return stats_udpconnections_mrtg(reply);
  case TASK_STATS_TCP:
    return stats_tcpconnections_mrtg(reply);
  case TASK_STATS_FULLSCRAPE:
    return stats_fullscrapes_mrtg(reply);
  case TASK_STATS_COMPLETED:
    return stats_return_completed_mrtg(reply);
  case TASK_STATS_HTTPERRORS:
    return stats_httperrors_txt(reply);
  case TASK_STATS_VERSION:
    return stats_return_tracker_version(reply);
  case TASK_STATS_RENEW:
    return stats_return_renew_bucket(reply);
  case TASK_STATS_SYNCS:
    return stats_return_sync_mrtg(reply);
#ifdef WANT_LOG_NUMWANT
  case TASK_STATS_NUMWANTS:
    return stats_return_numwants(reply);
#endif
  default:
    return 0;
  }
}

static void stats_make(int *iovec_entries, struct iovec **iovector, ot_tasktype mode) {
  char *r;

  *iovec_entries = 0;
  *iovector      = NULL;
  if (!(r = iovec_increase(iovec_entries, iovector, OT_STATS_TMPSIZE)))
    return;

  switch (mode & TASK_TASK_MASK) {
  case TASK_STATS_TORRENTS:
    r += stats_torrents_mrtg(r);
    break;
  case TASK_STATS_PEERS:
    r += stats_peers_mrtg(r);
    break;
  case TASK_STATS_SLASH24S:
    r += stats_slash24s_txt(r, 128);
    break;
  case TASK_STATS_TOP10:
    r += stats_top_txt(r, 10);
    break;
  case TASK_STATS_TOP100:
    r = iovec_fix_increase_or_free(iovec_entries, iovector, r, 4 * OT_STATS_TMPSIZE);
    if (!r)
      return;
    r += stats_top_txt(r, 100);
    break;
  case TASK_STATS_EVERYTHING:
    r = iovec_fix_increase_or_free(iovec_entries, iovector, r, OT_STATS_TMPSIZE + 64 * OT_PEER_TIMEOUT);
    if (!r)
      return;
    r += stats_return_everything(r);
    break;
#ifdef WANT_SPOT_WOODPECKER
  case TASK_STATS_WOODPECKERS:
    r += stats_return_woodpeckers(r, 128);
    break;
#endif
#ifdef WANT_FULLLOG_NETWORKS
  case TASK_STATS_FULLLOG:
    stats_return_fulllog(iovec_entries, iovector, r);
    return;
#endif
  default:
    iovec_free(iovec_entries, iovector);
    return;
  }
  iovec_fixlast(iovec_entries, iovector, r);
}

void stats_issue_event(ot_status_event event, PROTO_FLAG proto, uintptr_t event_data) {
  switch (event) {
  case EVENT_ACCEPT:
    if (proto == FLAG_TCP)
      ot_overall_tcp_connections++;
    else
      ot_overall_udp_connections++;
#ifdef WANT_LOG_NETWORKS
    stat_increase_network_count(&stats_network_counters_root, 0, event_data);
#endif
    break;
  case EVENT_ANNOUNCE:
    if (proto == FLAG_TCP)
      ot_overall_tcp_successfulannounces++;
    else
      ot_overall_udp_successfulannounces++;
    break;
  case EVENT_CONNECT:
    if (proto == FLAG_TCP)
      ot_overall_tcp_connects++;
    else
      ot_overall_udp_connects++;
    break;
  case EVENT_COMPLETED:
#ifdef WANT_SYSLOGS
    if (event_data) {
      struct ot_workstruct *ws = (struct ot_workstruct *)event_data;
      char                  timestring[64];
      char                  hash_hex[42], peerid_hex[42], ip_readable[64];
      struct tm             time_now;
      time_t                ttt;

      time(&ttt);
      localtime_r(&ttt, &time_now);
      strftime(timestring, sizeof(timestring), "%FT%T%z", &time_now);

      to_hex(hash_hex, *ws->hash);
      if (ws->peer_id)
        to_hex(peerid_hex, (uint8_t *)ws->peer_id);
      else {
        *peerid_hex = 0;
      }

      ip_readable[fmt_ip6c(ip_readable, (char *)&ws->peer)] = 0;
#if 0
        /* XXX */
        ip_readable[ fmt_ip4( ip_readable, (char*)&ws->peer ) ] = 0;
#endif
      syslog(LOG_INFO, "time=%s event=completed info_hash=%s peer_id=%s ip=%s", timestring, hash_hex, peerid_hex, ip_readable);
    }
#endif
    ot_overall_completed++;
    break;
  case EVENT_SCRAPE:
    if (proto == FLAG_TCP)
      ot_overall_tcp_successfulscrapes++;
    else
      ot_overall_udp_successfulscrapes++;
    break;
  case EVENT_FULLSCRAPE:
    ot_full_scrape_count++;
    ot_full_scrape_size += event_data;
    break;
  case EVENT_FULLSCRAPE_REQUEST: {
    ot_ip6 *ip = (ot_ip6 *)event_data; /* ugly hack to transfer ip to stats */
    char    _debug[512];
    int     off  = snprintf(_debug, sizeof(_debug), "[%08d] scrp:  ", (unsigned int)(g_now_seconds - ot_start_time) / 60);
    off         += fmt_ip6c(_debug + off, *ip);
    off         += snprintf(_debug + off, sizeof(_debug) - off, " - FULL SCRAPE\n");
    (void)write(2, _debug, off);
    ot_full_scrape_request_count++;
  } break;
  case EVENT_FULLSCRAPE_REQUEST_GZIP: {
    ot_ip6 *ip = (ot_ip6 *)event_data; /* ugly hack to transfer ip to stats */
    char    _debug[512];
    int     off  = snprintf(_debug, sizeof(_debug), "[%08d] scrp:  ", (unsigned int)(g_now_seconds - ot_start_time) / 60);
    off         += fmt_ip6c(_debug + off, *ip);
    off         += snprintf(_debug + off, sizeof(_debug) - off, " - FULL SCRAPE\n");
    (void)write(2, _debug, off);
    ot_full_scrape_request_count++;
  } break;
  case EVENT_FAILED:
    ot_failed_request_counts[event_data]++;
    break;
  case EVENT_RENEW:
    ot_renewed[event_data]++;
    break;
  case EVENT_SYNC:
    ot_overall_sync_count += event_data;
    break;
  case EVENT_BUCKET_LOCKED:
    ot_overall_stall_count++;
    break;
#ifdef WANT_SPOT_WOODPECKER
  case EVENT_WOODPECKER:
    pthread_mutex_lock(&g_woodpeckers_mutex);
    stat_increase_network_count(&stats_woodpeckers_tree, 0, event_data);
    pthread_mutex_unlock(&g_woodpeckers_mutex);
    break;
#endif
  case EVENT_CONNID_MISSMATCH:
    ++ot_overall_udp_connectionidmissmatches;
  default:
    break;
  }
}

void stats_cleanup() {
#ifdef WANT_SPOT_WOODPECKER
  pthread_mutex_lock(&g_woodpeckers_mutex);
  stats_shift_down_network_count(&stats_woodpeckers_tree, 0, 1);
  pthread_mutex_unlock(&g_woodpeckers_mutex);
#endif
}

static void *stats_worker(void *args) {
  int           iovec_entries;
  struct iovec *iovector;

  (void)args;

  while (1) {
    ot_tasktype tasktype = TASK_STATS;
    ot_taskid   taskid   = mutex_workqueue_poptask(&tasktype);
    stats_make(&iovec_entries, &iovector, tasktype);
    if (mutex_workqueue_pushresult(taskid, iovec_entries, iovector))
      iovec_free(&iovec_entries, &iovector);
  }
  return NULL;
}

void stats_deliver(int64 sock, int tasktype) { mutex_workqueue_pushtask(sock, tasktype); }

static pthread_t thread_id;
void stats_init() {
  ot_start_time = g_now_seconds;
  pthread_create(&thread_id, NULL, stats_worker, NULL);
}

void stats_deinit() {
    pthread_cancel(thread_id);
}