download.cc

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// TODO(jblomer): MS for time summing
// NOLINTNEXTLINE
#define __STDC_FORMAT_MACROS

#include "cvmfs_config.h"
#include "download.h"

#include <alloca.h>
#include <errno.h>
#include <inttypes.h>
#include <poll.h>
#include <pthread.h>
#include <signal.h>
#include <stdint.h>
#include <sys/time.h>
#include <unistd.h>

#include <algorithm>
#include <cassert>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <map>
#include <set>
#include <utility>

#include "compression.h"
#include "crypto/hash.h"
#include "duplex_curl.h"
#include "interrupt.h"
#include "sanitizer.h"
#include "ssl.h"
#include "util/algorithm.h"
#include "util/atomic.h"
#include "util/concurrency.h"
#include "util/exception.h"
#include "util/logging.h"
#include "util/posix.h"
#include "util/prng.h"
#include "util/smalloc.h"
#include "util/string.h"

using namespace std;  // NOLINT

namespace download {

bool Interrupted(const std::string &fqrn, JobInfo *info) {
  if (info->allow_failure()) {
    return true;
  }

  if (!fqrn.empty()) {
    // it is up to the user the create this sentinel file ("pause_file") if
    // CVMFS_FAILOVER_INDEFINITELY is used. It must be created during
    // "cvmfs_config reload" and "cvmfs_config reload $fqrn"
    std::string pause_file = std::string("/var/run/cvmfs/interrupt.") + fqrn;

    LogCvmfs(kLogDownload, kLogDebug,
            "(id %" PRId64 ") Interrupted(): checking for existence of %s",
            info->id(), pause_file.c_str());
    if (FileExists(pause_file)) {
      LogCvmfs(kLogDownload, kLogDebug,
                 "(id %" PRId64 ") Interrupt marker found - "
                 "Interrupting current download, this will EIO outstanding IO.",
                 info->id());
      if (0 != unlink(pause_file.c_str())) {
        LogCvmfs(kLogDownload, kLogDebug,
                  "(id %" PRId64 ") Couldn't delete interrupt marker: errno=%d",
                  info->id(), errno);
      }
      return true;
    }
  }
  return false;
}

static Failures PrepareDownloadDestination(JobInfo *info) {
  if (info->sink() != NULL && !info->sink()->IsValid()) {
    cvmfs::PathSink* psink = dynamic_cast<cvmfs::PathSink*>(info->sink());
    if (psink != NULL) {
      LogCvmfs(kLogDownload, kLogDebug,
                     "(id %" PRId64 ") Failed to open path %s: %s  (errno=%d).",
                     info->id(), psink->path().c_str(), strerror(errno), errno);
      return kFailLocalIO;
    } else {
      LogCvmfs(kLogDownload, kLogDebug, "(id %" PRId64 ") "
                                  "Failed to create a valid sink: \n %s",
                                  info->id(), info->sink()->Describe().c_str());
      return kFailOther;
    }
  }

  return kFailOk;
}


static size_t CallbackCurlHeader(void *ptr, size_t size, size_t nmemb,
                                 void *info_link)
{
  const size_t num_bytes = size*nmemb;
  const string header_line(static_cast<const char *>(ptr), num_bytes);
  JobInfo *info = static_cast<JobInfo *>(info_link);

  // LogCvmfs(kLogDownload, kLogDebug, "REMOVE-ME: Header callback with %s",
  //          header_line.c_str());

  // Check http status codes
  if (HasPrefix(header_line, "HTTP/1.", false)) {
    if (header_line.length() < 10) {
      return 0;
    }

    unsigned i;
    for (i = 8; (i < header_line.length()) && (header_line[i] == ' '); ++i) {}

    // Code is initialized to -1
    if (header_line.length() > i+2) {
      info->SetHttpCode(DownloadManager::ParseHttpCode(&header_line[i]));
    }

    if ((info->http_code() / 100) == 2) {
      return num_bytes;
    } else if ((info->http_code() == 301) ||
               (info->http_code() == 302) ||
               (info->http_code() == 303) ||
               (info->http_code() == 307))
    {
      if (!info->follow_redirects()) {
        LogCvmfs(kLogDownload, kLogDebug,
                            "(id %" PRId64 ") redirect support not enabled: %s",
                            info->id(), header_line.c_str());
        info->SetErrorCode(kFailHostHttp);
        return 0;
      }
      LogCvmfs(kLogDownload, kLogDebug, "(id %" PRId64 ") http redirect: %s",
                                        info->id(), header_line.c_str());
      // libcurl will handle this because of CURLOPT_FOLLOWLOCATION
      return num_bytes;
    } else {
      LogCvmfs(kLogDownload, kLogDebug,
                            "(id %" PRId64 ") http status error code: %s [%d]",
                            info->id(), header_line.c_str(), info->http_code());
      if (((info->http_code() / 100) == 5) ||
          (info->http_code() == 400) || (info->http_code() == 404))
      {
        // 5XX returned by host
        // 400: error from the GeoAPI module
        // 404: the stratum 1 does not have the newest files
        info->SetErrorCode(kFailHostHttp);
      } else if (info->http_code() == 429) {
        // 429: rate throttling (we ignore the backoff hint for the time being)
        info->SetErrorCode(kFailHostConnection);
      } else {
        info->SetErrorCode((info->proxy() == "DIRECT") ? kFailHostHttp :
                                                       kFailProxyHttp);
      }
      return 0;
    }
  }

  // If needed: allocate space in sink
  if (info->sink() != NULL && info->sink()->RequiresReserve() &&
      HasPrefix(header_line, "CONTENT-LENGTH:", true))
  {
    char *tmp = reinterpret_cast<char *>(alloca(num_bytes+1));
    uint64_t length = 0;
    sscanf(header_line.c_str(), "%s %" PRIu64, tmp, &length);
    if (length > 0) {
      if (!info->sink()->Reserve(length)) {
        LogCvmfs(kLogDownload, kLogDebug | kLogSyslogErr, "(id %" PRId64 ") "
                       "resource %s too large to store in memory (%" PRIu64 ")",
                       info->id(), info->url()->c_str(), length);
        info->SetErrorCode(kFailTooBig);
        return 0;
      }
    } else {
      // Empty resource
      info->sink()->Reserve(0);
    }
  } else if (HasPrefix(header_line, "LOCATION:", true)) {
    // This comes along with redirects
    LogCvmfs(kLogDownload, kLogDebug, "(id %" PRId64 ") %s",
                                      info->id(), header_line.c_str());
  } else if (HasPrefix(header_line, "X-SQUID-ERROR:", true)) {
    // Reinterpret host error as proxy error
    if (info->error_code() == kFailHostHttp) {
      info->SetErrorCode(kFailProxyHttp);
    }
  } else if (HasPrefix(header_line, "PROXY-STATUS:", true)) {
    // Reinterpret host error as proxy error if applicable
    if ((info->error_code() == kFailHostHttp) &&
        (header_line.find("error=") != string::npos)) {
      info->SetErrorCode(kFailProxyHttp);
    }
  }

  return num_bytes;
}


static size_t CallbackCurlData(void *ptr, size_t size, size_t nmemb,
                               void *info_link)
{
  const size_t num_bytes = size*nmemb;
  JobInfo *info = static_cast<JobInfo *>(info_link);

  // TODO(heretherebedragons) remove if no error comes up
  // as this means only jobinfo data request (and not header only)
  // come here
  assert(info->sink() != NULL);

  // LogCvmfs(kLogDownload, kLogDebug, "Data callback,  %d bytes", num_bytes);

  if (num_bytes == 0)
    return 0;

  if (info->expected_hash()) {
    shash::Update(reinterpret_cast<unsigned char *>(ptr),
                  num_bytes, info->hash_context());
  }

  if (info->compressed()) {
    zlib::StreamStates retval =
      zlib::DecompressZStream2Sink(ptr, static_cast<int64_t>(num_bytes),
                                   info->GetZstreamPtr(), info->sink());
    if (retval == zlib::kStreamDataError) {
      LogCvmfs(kLogDownload, kLogSyslogErr,
                                     "(id %" PRId64 ") failed to decompress %s",
                                     info->id(), info->url()->c_str());
      info->SetErrorCode(kFailBadData);
      return 0;
    } else if (retval == zlib::kStreamIOError) {
      LogCvmfs(kLogDownload, kLogSyslogErr,
                            "(id %" PRId64 ") decompressing %s, local IO error",
                            info->id(), info->url()->c_str());
      info->SetErrorCode(kFailLocalIO);
      return 0;
    }
  } else {
    int64_t written = info->sink()->Write(ptr, num_bytes);
    if (written < 0 || static_cast<uint64_t>(written) != num_bytes) {
      LogCvmfs(kLogDownload, kLogDebug, "(id %" PRId64 ") "
              "Failed to perform write of %zu bytes to sink %s with errno %ld",
              info->id(), num_bytes, info->sink()->Describe().c_str(), written);
    }
  }

  return num_bytes;
}

#ifdef DEBUGMSG
static int CallbackCurlDebug(
  CURL * handle,
  curl_infotype type,
  char *data,
  size_t size,
  void * /* clientp */)
{
  JobInfo *info;
  curl_easy_getinfo(handle, CURLINFO_PRIVATE, &info);

  std::string prefix = "(id " + StringifyInt(info->id()) + ") ";
  switch (type) {
    case CURLINFO_TEXT:
      prefix += "{info} ";
      break;
    case CURLINFO_HEADER_IN:
      prefix += "{header/recv} ";
      break;
    case CURLINFO_HEADER_OUT:
      prefix += "{header/sent} ";
      break;
    case CURLINFO_DATA_IN:
      if (size < 50) {
        prefix += "{data/recv} ";
        break;
      } else {
        LogCvmfs(kLogCurl, kLogDebug, "%s{data/recv} <snip>", prefix.c_str());
        return 0;
      }
    case CURLINFO_DATA_OUT:
      if (size < 50) {
        prefix += "{data/sent} ";
        break;
      } else {
        LogCvmfs(kLogCurl, kLogDebug, "%s{data/sent} <snip>", prefix.c_str());
        return 0;
      }
    case CURLINFO_SSL_DATA_IN:
      if (size < 50) {
        prefix += "{ssldata/recv} ";
        break;
      } else {
        LogCvmfs(kLogCurl, kLogDebug, "%s{ssldata/recv} <snip>",
                                      prefix.c_str());
        return 0;
      }
    case CURLINFO_SSL_DATA_OUT:
      if (size < 50) {
        prefix += "{ssldata/sent} ";
        break;
      } else {
        LogCvmfs(kLogCurl, kLogDebug, "%s{ssldata/sent} <snip>",
                                      prefix.c_str());
        return 0;
      }
    default:
      // just log the message
      break;
  }

  bool valid_char = true;
  std::string msg(data, size);
  for (size_t i = 0; i < msg.length(); ++i) {
    if (msg[i] == '\0') {
      msg[i] = '~';
    }

    // verify that char is a valid printable char
    if ((msg[i] < ' ' || msg[i] > '~')
        && (msg[i] != 10 /*line feed*/
            && msg[i] != 13 /*carriage return*/)) {
      valid_char = false;
    }
  }

  if (!valid_char) {
    msg = "<Non-plaintext sequence>";
  }

  LogCvmfs(kLogCurl, kLogDebug, "%s%s",
           prefix.c_str(), Trim(msg, true /* trim_newline */).c_str());
  return 0;
}
#endif

//------------------------------------------------------------------------------


const int DownloadManager::kProbeUnprobed = -1;
const int DownloadManager::kProbeDown     = -2;
const int DownloadManager::kProbeGeo      = -3;

bool DownloadManager::EscapeUrlChar(unsigned char input, char output[3]) {
  if (((input >= '0') && (input <= '9')) ||
      ((input >= 'A') && (input <= 'Z')) ||
      ((input >= 'a') && (input <= 'z')) ||
      (input == '/') || (input == ':') || (input == '.') ||
      (input == '@') ||
      (input == '+') || (input == '-') ||
      (input == '_') || (input == '~') ||
      (input == '[') || (input == ']') || (input == ','))
  {
    output[0] = static_cast<char>(input);
    return false;
  }

  output[0] = '%';
  output[1] = static_cast<char>(
                             (input / 16) + ((input / 16 <= 9) ? '0' : 'A'-10));
  output[2] = static_cast<char>(
                             (input % 16) + ((input % 16 <= 9) ? '0' : 'A'-10));
  return true;
}


string DownloadManager::EscapeUrl(const int64_t jobinfo_id, const string &url) {
  string escaped;
  escaped.reserve(url.length());

  char escaped_char[3];
  for (unsigned i = 0, s = url.length(); i < s; ++i) {
    if (EscapeUrlChar(url[i], escaped_char)) {
      escaped.append(escaped_char, 3);
    } else {
      escaped.push_back(escaped_char[0]);
    }
  }
  LogCvmfs(kLogDownload, kLogDebug, "(id %" PRId64 ") escaped %s to %s",
                                      jobinfo_id, url.c_str(), escaped.c_str());

  return escaped;
}

unsigned DownloadManager::EscapeHeader(const string &header,
                             char *escaped_buf,
                             size_t buf_size)
{
  unsigned esc_pos = 0;
  char escaped_char[3];
  for (unsigned i = 0, s = header.size(); i < s; ++i) {
    if (EscapeUrlChar(header[i], escaped_char)) {
      for (unsigned j = 0; j < 3; ++j) {
        if (escaped_buf) {
          if (esc_pos >= buf_size)
            return esc_pos;
          escaped_buf[esc_pos] = escaped_char[j];
        }
        esc_pos++;
      }
    } else {
      if (escaped_buf) {
        if (esc_pos >= buf_size)
          return esc_pos;
        escaped_buf[esc_pos] = escaped_char[0];
      }
      esc_pos++;
    }
  }

  return esc_pos;
}

int DownloadManager::ParseHttpCode(const char digits[3]) {
  int result = 0;
  int factor = 100;
  for (int i = 0; i < 3; ++i) {
    if ((digits[i] < '0') || (digits[i] > '9'))
      return -1;
    result += (digits[i] - '0') * factor;
    factor /= 10;
  }
  return result;
}


int DownloadManager::CallbackCurlSocket(CURL * /* easy */,
                                        curl_socket_t s,
                                        int action,
                                        void *userp,
                                        void * /* socketp */)
{
  // LogCvmfs(kLogDownload, kLogDebug, "CallbackCurlSocket called with easy "
  //          "handle %p, socket %d, action %d", easy, s, action);
  DownloadManager *download_mgr = static_cast<DownloadManager *>(userp);
  if (action == CURL_POLL_NONE)
    return 0;

  // Find s in watch_fds_
  unsigned index;

  // TODO(heretherebedragons) why start at index = 0 and not 2?
  // fd[0] and fd[1] are fixed?
  for (index = 0; index < download_mgr->watch_fds_inuse_; ++index) {
    if (download_mgr->watch_fds_[index].fd == s)
      break;
  }
  // Or create newly
  if (index == download_mgr->watch_fds_inuse_) {
    // Extend array if necessary
    if (download_mgr->watch_fds_inuse_ == download_mgr->watch_fds_size_)
    {
      assert(download_mgr->watch_fds_size_ > 0);
      download_mgr->watch_fds_size_ *= 2;
      download_mgr->watch_fds_ = static_cast<struct pollfd *>(
        srealloc(download_mgr->watch_fds_,
                 download_mgr->watch_fds_size_ * sizeof(struct pollfd)));
    }
    download_mgr->watch_fds_[download_mgr->watch_fds_inuse_].fd = s;
    download_mgr->watch_fds_[download_mgr->watch_fds_inuse_].events = 0;
    download_mgr->watch_fds_[download_mgr->watch_fds_inuse_].revents = 0;
    download_mgr->watch_fds_inuse_++;
  }

  switch (action) {
    case CURL_POLL_IN:
      download_mgr->watch_fds_[index].events = POLLIN | POLLPRI;
      break;
    case CURL_POLL_OUT:
      download_mgr->watch_fds_[index].events = POLLOUT | POLLWRBAND;
      break;
    case CURL_POLL_INOUT:
      download_mgr->watch_fds_[index].events =
        POLLIN | POLLPRI | POLLOUT | POLLWRBAND;
      break;
    case CURL_POLL_REMOVE:
      if (index < download_mgr->watch_fds_inuse_-1) {
        download_mgr->watch_fds_[index] =
          download_mgr->watch_fds_[download_mgr->watch_fds_inuse_-1];
      }
      download_mgr->watch_fds_inuse_--;
      // Shrink array if necessary
      if ((download_mgr->watch_fds_inuse_ > download_mgr->watch_fds_max_) &&
          (download_mgr->watch_fds_inuse_ < download_mgr->watch_fds_size_/2))
      {
        download_mgr->watch_fds_size_ /= 2;
        // LogCvmfs(kLogDownload, kLogDebug, "shrinking watch_fds_ (%d)",
        //          watch_fds_size_);
        download_mgr->watch_fds_ = static_cast<struct pollfd *>(
          srealloc(download_mgr->watch_fds_,
                   download_mgr->watch_fds_size_*sizeof(struct pollfd)));
        // LogCvmfs(kLogDownload, kLogDebug, "shrinking watch_fds_ done",
        //          watch_fds_size_);
      }
      break;
    default:
      break;
  }

  return 0;
}


void *DownloadManager::MainDownload(void *data) {
  DownloadManager *download_mgr = static_cast<DownloadManager *>(data);
  LogCvmfs(kLogDownload, kLogDebug,
                         "download I/O thread of DownloadManager '%s' started",
                         download_mgr->name_.c_str());

  const int kIdxPipeTerminate = 0;
  const int kIdxPipeJobs = 1;

  download_mgr->watch_fds_ =
    static_cast<struct pollfd *>(smalloc(2 * sizeof(struct pollfd)));
  download_mgr->watch_fds_size_ = 2;
  download_mgr->watch_fds_[kIdxPipeTerminate].fd =
                                     download_mgr->pipe_terminate_->GetReadFd();
  download_mgr->watch_fds_[kIdxPipeTerminate].events = POLLIN | POLLPRI;
  download_mgr->watch_fds_[kIdxPipeTerminate].revents = 0;
  download_mgr->watch_fds_[kIdxPipeJobs].fd =
                                          download_mgr->pipe_jobs_->GetReadFd();
  download_mgr->watch_fds_[kIdxPipeJobs].events = POLLIN | POLLPRI;
  download_mgr->watch_fds_[kIdxPipeJobs].revents = 0;
  download_mgr->watch_fds_inuse_ = 2;

  int still_running = 0;
  struct timeval timeval_start, timeval_stop;
  gettimeofday(&timeval_start, NULL);
  while (true) {
    int timeout;
    if (still_running) {
      /* NOTE: The following might degrade the performance for many small files
       * use case. TODO(jblomer): look into it.
      // Specify a timeout for polling in ms; this allows us to return
      // to libcurl once a second so it can look for internal operations
      // which timed out.  libcurl has a more elaborate mechanism
      // (CURLMOPT_TIMERFUNCTION) that would inform us of the next potential
      // timeout.  TODO(bbockelm) we should switch to that in the future.
      timeout = 100;
      */
      timeout = 1;
    } else {
      timeout = -1;
      gettimeofday(&timeval_stop, NULL);
      int64_t delta = static_cast<int64_t>(
        1000 * DiffTimeSeconds(timeval_start, timeval_stop));
      perf::Xadd(download_mgr->counters_->sz_transfer_time, delta);
    }
    int retval = poll(download_mgr->watch_fds_, download_mgr->watch_fds_inuse_,
                      timeout);
    if (retval < 0) {
      continue;
    }

    // Handle timeout
    if (retval == 0) {
      curl_multi_socket_action(download_mgr->curl_multi_,
                               CURL_SOCKET_TIMEOUT,
                               0,
                               &still_running);
    }

    // Terminate I/O thread
    if (download_mgr->watch_fds_[kIdxPipeTerminate].revents)
      break;

    // New job arrives
    if (download_mgr->watch_fds_[kIdxPipeJobs].revents) {
      download_mgr->watch_fds_[kIdxPipeJobs].revents = 0;
      JobInfo *info;
      download_mgr->pipe_jobs_->Read<JobInfo*>(&info);
      if (!still_running) {
        gettimeofday(&timeval_start, NULL);
      }
      CURL *handle = download_mgr->AcquireCurlHandle();
      download_mgr->InitializeRequest(info, handle);
      download_mgr->SetUrlOptions(info);
      curl_multi_add_handle(download_mgr->curl_multi_, handle);
      curl_multi_socket_action(download_mgr->curl_multi_,
                               CURL_SOCKET_TIMEOUT,
                               0,
                               &still_running);
    }

    // Activity on curl sockets
    // Within this loop the curl_multi_socket_action() may cause socket(s)
    // to be removed from watch_fds_. If a socket is removed it is replaced
    // by the socket at the end of the array and the inuse count is decreased.
    // Therefore loop over the array in reverse order.
    for (int64_t i = download_mgr->watch_fds_inuse_-1; i >= 2; --i) {
      if (i >= download_mgr->watch_fds_inuse_) {
        continue;
      }
      if (download_mgr->watch_fds_[i].revents) {
        int ev_bitmask = 0;
        if (download_mgr->watch_fds_[i].revents & (POLLIN | POLLPRI))
          ev_bitmask |= CURL_CSELECT_IN;
        if (download_mgr->watch_fds_[i].revents & (POLLOUT | POLLWRBAND))
          ev_bitmask |= CURL_CSELECT_OUT;
        if (download_mgr->watch_fds_[i].revents &
            (POLLERR | POLLHUP | POLLNVAL))
        {
          ev_bitmask |= CURL_CSELECT_ERR;
        }
        download_mgr->watch_fds_[i].revents = 0;

        curl_multi_socket_action(download_mgr->curl_multi_,
                                 download_mgr->watch_fds_[i].fd,
                                 ev_bitmask,
                                 &still_running);
      }
    }

    // Check if transfers are completed
    CURLMsg *curl_msg;
    int msgs_in_queue;
    while ((curl_msg = curl_multi_info_read(download_mgr->curl_multi_,
                                            &msgs_in_queue)))
    {
      if (curl_msg->msg == CURLMSG_DONE) {
        perf::Inc(download_mgr->counters_->n_requests);
        JobInfo *info;
        CURL *easy_handle = curl_msg->easy_handle;
        int curl_error = curl_msg->data.result;
        curl_easy_getinfo(easy_handle, CURLINFO_PRIVATE, &info);

        int64_t redir_count;
        curl_easy_getinfo(easy_handle, CURLINFO_REDIRECT_COUNT, &redir_count);
        LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                                  "Number of CURL redirects %" PRId64 ,
                                  download_mgr->name_.c_str(), info->id(),
                                  redir_count);

        curl_multi_remove_handle(download_mgr->curl_multi_, easy_handle);
        if (download_mgr->VerifyAndFinalize(curl_error, info)) {
          curl_multi_add_handle(download_mgr->curl_multi_, easy_handle);
          curl_multi_socket_action(download_mgr->curl_multi_,
                                   CURL_SOCKET_TIMEOUT,
                                   0,
                                   &still_running);
        } else {
          // Return easy handle into pool and write result back
          download_mgr->ReleaseCurlHandle(easy_handle);

          DataTubeElement *ele = new DataTubeElement(kActionStop);
          info->GetDataTubePtr()->EnqueueBack(ele);
          info->GetPipeJobResultPtr()->
                                  Write<download::Failures>(info->error_code());
        }
      }
    }
  }

  for (set<CURL *>::iterator i = download_mgr->pool_handles_inuse_->begin(),
       iEnd = download_mgr->pool_handles_inuse_->end(); i != iEnd; ++i)
  {
    curl_multi_remove_handle(download_mgr->curl_multi_, *i);
    curl_easy_cleanup(*i);
  }
  download_mgr->pool_handles_inuse_->clear();
  free(download_mgr->watch_fds_);

  LogCvmfs(kLogDownload, kLogDebug,
                       "download I/O thread of DownloadManager '%s' terminated",
                       download_mgr->name_.c_str());
  return NULL;
}


//------------------------------------------------------------------------------


HeaderLists::~HeaderLists() {
  for (unsigned i = 0; i < blocks_.size(); ++i) {
    delete[] blocks_[i];
  }
  blocks_.clear();
}


curl_slist *HeaderLists::GetList(const char *header) {
  return Get(header);
}


curl_slist *HeaderLists::DuplicateList(curl_slist *slist) {
  assert(slist);
  curl_slist *copy = GetList(slist->data);
  copy->next = slist->next;
  curl_slist *prev = copy;
  slist = slist->next;
  while (slist) {
    curl_slist *new_link = Get(slist->data);
    new_link->next = slist->next;
    prev->next = new_link;
    prev = new_link;
    slist = slist->next;
  }
  return copy;
}


void HeaderLists::AppendHeader(curl_slist *slist, const char *header) {
  assert(slist);
  curl_slist *new_link = Get(header);
  new_link->next = NULL;

  while (slist->next)
    slist = slist->next;
  slist->next = new_link;
}


void HeaderLists::CutHeader(const char *header, curl_slist **slist) {
  assert(slist);
  curl_slist head;
  head.next = *slist;
  curl_slist *prev = &head;
  curl_slist *rover = *slist;
  while (rover) {
    if (strcmp(rover->data, header) == 0) {
      prev->next = rover->next;
      Put(rover);
      rover = prev;
    }
    prev = rover;
    rover = rover->next;
  }
  *slist = head.next;
}


void HeaderLists::PutList(curl_slist *slist) {
  while (slist) {
    curl_slist *next = slist->next;
    Put(slist);
    slist = next;
  }
}


string HeaderLists::Print(curl_slist *slist) {
  string verbose;
  while (slist) {
    verbose += string(slist->data) + "\n";
    slist = slist->next;
  }
  return verbose;
}


curl_slist *HeaderLists::Get(const char *header) {
  for (unsigned i = 0; i < blocks_.size(); ++i) {
    for (unsigned j = 0; j < kBlockSize; ++j) {
      if (!IsUsed(&(blocks_[i][j]))) {
        blocks_[i][j].data = const_cast<char *>(header);
        return &(blocks_[i][j]);
      }
    }
  }

  // All used, new block
  AddBlock();
  blocks_[blocks_.size()-1][0].data = const_cast<char *>(header);
  return &(blocks_[blocks_.size()-1][0]);
}


void HeaderLists::Put(curl_slist *slist) {
  slist->data = NULL;
  slist->next = NULL;
}


void HeaderLists::AddBlock() {
  curl_slist *new_block = new curl_slist[kBlockSize];
  for (unsigned i = 0; i < kBlockSize; ++i) {
    Put(&new_block[i]);
  }
  blocks_.push_back(new_block);
}


//------------------------------------------------------------------------------


string DownloadManager::ProxyInfo::Print() {
  if (url == "DIRECT")
    return url;

  string result = url;
  int remaining =
    static_cast<int>(host.deadline()) - static_cast<int>(time(NULL));
  string expinfo = (remaining >= 0) ? "+" : "";
  if (abs(remaining) >= 3600) {
    expinfo += StringifyInt(remaining/3600) + "h";
  } else if (abs(remaining) >= 60) {
    expinfo += StringifyInt(remaining/60) + "m";
  } else {
    expinfo += StringifyInt(remaining) + "s";
  }
  if (host.status() == dns::kFailOk) {
    result += " (" + host.name() + ", " + expinfo + ")";
  } else {
    result += " (:unresolved:, " + expinfo + ")";
  }
  return result;
}


CURL *DownloadManager::AcquireCurlHandle() {
  CURL *handle;

  if (pool_handles_idle_->empty()) {
    // Create a new handle
    handle = curl_easy_init();
    assert(handle != NULL);

    curl_easy_setopt(handle, CURLOPT_NOSIGNAL, 1);
    // curl_easy_setopt(curl_default, CURLOPT_FAILONERROR, 1);
    curl_easy_setopt(handle, CURLOPT_HEADERFUNCTION, CallbackCurlHeader);
    curl_easy_setopt(handle, CURLOPT_WRITEFUNCTION, CallbackCurlData);
  } else {
    handle = *(pool_handles_idle_->begin());
    pool_handles_idle_->erase(pool_handles_idle_->begin());
  }

  pool_handles_inuse_->insert(handle);

  return handle;
}


void DownloadManager::ReleaseCurlHandle(CURL *handle) {
  set<CURL *>::iterator elem = pool_handles_inuse_->find(handle);
  assert(elem != pool_handles_inuse_->end());

  if (pool_handles_idle_->size() > pool_max_handles_) {
    curl_easy_cleanup(*elem);
  } else {
    pool_handles_idle_->insert(*elem);
  }

  pool_handles_inuse_->erase(elem);
}


void DownloadManager::InitializeRequest(JobInfo *info, CURL *handle) {
  // Initialize internal download state
  info->SetCurlHandle(handle);
  info->SetErrorCode(kFailOk);
  info->SetHttpCode(-1);
  info->SetFollowRedirects(follow_redirects_);
  info->SetNumUsedProxies(1);
  info->SetNumUsedHosts(1);
  info->SetNumRetries(0);
  info->SetBackoffMs(0);
  info->SetHeaders(header_lists_->DuplicateList(default_headers_));
  if (info->info_header()) {
    header_lists_->AppendHeader(info->headers(), info->info_header());
  }
  if (enable_http_tracing_) {
    for (unsigned int i = 0; i < http_tracing_headers_.size(); i++) {
      header_lists_->AppendHeader(info->headers(),
                                  (http_tracing_headers_)[i].c_str());
    }

    header_lists_->AppendHeader(info->headers(), info->tracing_header_pid());
    header_lists_->AppendHeader(info->headers(), info->tracing_header_gid());
    header_lists_->AppendHeader(info->headers(), info->tracing_header_uid());

    LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                                "CURL Header for URL: %s is:\n %s",
                                name_.c_str(), info->id(), info->url()->c_str(),
                                header_lists_->Print(info->headers()).c_str());
  }

  if (info->force_nocache()) {
    SetNocache(info);
  } else {
    info->SetNocache(false);
  }
  if (info->compressed()) {
    zlib::DecompressInit(info->GetZstreamPtr());
  }
  if (info->expected_hash()) {
    assert(info->hash_context().buffer != NULL);
    shash::Init(info->hash_context());
  }

  if ((info->range_offset() != -1) && (info->range_size())) {
    char byte_range_array[100];
    const int64_t range_lower = static_cast<int64_t>(info->range_offset());
    const int64_t range_upper = static_cast<int64_t>(
                                 info->range_offset() + info->range_size() - 1);
    if (snprintf(byte_range_array, sizeof(byte_range_array),
                 "%" PRId64 "-%" PRId64,
                 range_lower, range_upper) == 100)
    {
      PANIC(NULL);  // Should be impossible given limits on offset size.
    }
    curl_easy_setopt(handle, CURLOPT_RANGE, byte_range_array);
  } else {
    curl_easy_setopt(handle, CURLOPT_RANGE, NULL);
  }

  // Set curl parameters
  curl_easy_setopt(handle, CURLOPT_PRIVATE, static_cast<void *>(info));
  curl_easy_setopt(handle, CURLOPT_WRITEHEADER,
                   static_cast<void *>(info));
  curl_easy_setopt(handle, CURLOPT_WRITEDATA, static_cast<void *>(info));
  curl_easy_setopt(handle, CURLOPT_HTTPHEADER, info->headers());
  if (info->head_request()) {
    curl_easy_setopt(handle, CURLOPT_NOBODY, 1);
  } else {
    curl_easy_setopt(handle, CURLOPT_HTTPGET, 1);
  }
  if (opt_ipv4_only_) {
    curl_easy_setopt(handle, CURLOPT_IPRESOLVE, CURL_IPRESOLVE_V4);
  }
  if (follow_redirects_) {
    curl_easy_setopt(handle, CURLOPT_FOLLOWLOCATION, 1);
    curl_easy_setopt(handle, CURLOPT_MAXREDIRS, 4);
  }
#ifdef DEBUGMSG
  curl_easy_setopt(handle, CURLOPT_VERBOSE, 1);
  curl_easy_setopt(handle, CURLOPT_DEBUGFUNCTION, CallbackCurlDebug);
#endif
}


void DownloadManager::SetUrlOptions(JobInfo *info) {
  CURL *curl_handle = info->curl_handle();
  string url_prefix;

  MutexLockGuard m(lock_options_);

  // sharding policy
  if (sharding_policy_.UseCount() > 0) {
    if (info->proxy() != "") {
      // proxy already set, so this is a failover event
      perf::Inc(counters_->n_proxy_failover);
    }
    info->SetProxy(sharding_policy_->GetNextProxy(info->url(), info->proxy(),
                   info->range_offset() == -1 ? 0 : info->range_offset()));

    curl_easy_setopt(info->curl_handle(), CURLOPT_PROXY, info->proxy().c_str());
  } else {  // no sharding policy
    // Check if proxy group needs to be reset from backup to primary
    if (opt_timestamp_backup_proxies_ > 0) {
      const time_t now = time(NULL);
      if (static_cast<int64_t>(now) >
          static_cast<int64_t>(opt_timestamp_backup_proxies_ +
                              opt_proxy_groups_reset_after_))
      {
        opt_proxy_groups_current_ = 0;
        opt_timestamp_backup_proxies_ = 0;
        RebalanceProxiesUnlocked("Reset proxy group from backup to primary");
      }
    }
    // Check if load-balanced proxies within the group need to be reset
    if (opt_timestamp_failover_proxies_ > 0) {
      const time_t now = time(NULL);
      if (static_cast<int64_t>(now) >
          static_cast<int64_t>(opt_timestamp_failover_proxies_ +
                              opt_proxy_groups_reset_after_))
      {
        RebalanceProxiesUnlocked(
                         "Reset load-balanced proxies within the active group");
      }
    }
    // Check if host needs to be reset
    if (opt_timestamp_backup_host_ > 0) {
      const time_t now = time(NULL);
      if (static_cast<int64_t>(now) >
          static_cast<int64_t>(opt_timestamp_backup_host_ +
                              opt_host_reset_after_))
      {
        LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
                "(manager %s - id %" PRId64 ") "
                "switching host from %s to %s (reset host)", name_.c_str(),
                info->id(), (*opt_host_chain_)[opt_host_chain_current_].c_str(),
                (*opt_host_chain_)[0].c_str());
        opt_host_chain_current_ = 0;
        opt_timestamp_backup_host_ = 0;
      }
    }

    ProxyInfo *proxy = ChooseProxyUnlocked(info->expected_hash());
    if (!proxy || (proxy->url == "DIRECT")) {
      info->SetProxy("DIRECT");
      curl_easy_setopt(info->curl_handle(), CURLOPT_PROXY, "");
    } else {
      // Note: inside ValidateProxyIpsUnlocked() we may change the proxy data
      // structure, so we must not pass proxy->... (== current_proxy())
      // parameters directly
      std::string purl = proxy->url;
      dns::Host phost = proxy->host;
      const bool changed = ValidateProxyIpsUnlocked(purl, phost);
      // Current proxy may have changed
      if (changed) {
        proxy = ChooseProxyUnlocked(info->expected_hash());
      }
      info->SetProxy(proxy->url);
      if (proxy->host.status() == dns::kFailOk) {
        curl_easy_setopt(info->curl_handle(), CURLOPT_PROXY,
                        info->proxy().c_str());
      } else {
        // We know it can't work, don't even try to download
        curl_easy_setopt(info->curl_handle(), CURLOPT_PROXY, "0.0.0.0");
      }
    }
  }  // end !sharding

  curl_easy_setopt(curl_handle, CURLOPT_LOW_SPEED_LIMIT, opt_low_speed_limit_);
  if (info->proxy() != "DIRECT") {
    curl_easy_setopt(curl_handle, CURLOPT_CONNECTTIMEOUT, opt_timeout_proxy_);
    curl_easy_setopt(curl_handle, CURLOPT_LOW_SPEED_TIME, opt_timeout_proxy_);
  } else {
    curl_easy_setopt(curl_handle, CURLOPT_CONNECTTIMEOUT, opt_timeout_direct_);
    curl_easy_setopt(curl_handle, CURLOPT_LOW_SPEED_TIME, opt_timeout_direct_);
  }
  if (!opt_dns_server_.empty())
    curl_easy_setopt(curl_handle, CURLOPT_DNS_SERVERS, opt_dns_server_.c_str());

  if (info->probe_hosts() && opt_host_chain_) {
    url_prefix = (*opt_host_chain_)[opt_host_chain_current_];
    info->SetCurrentHostChainIndex(opt_host_chain_current_);
  }

  string url = url_prefix + *(info->url());

  curl_easy_setopt(curl_handle, CURLOPT_SSL_VERIFYPEER, 1L);
  if (url.substr(0, 5) == "https") {
    bool rvb = ssl_certificate_store_.ApplySslCertificatePath(curl_handle);
    if (!rvb) {
      LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
                       "(manager %s - id %" PRId64 ") "
                       "Failed to set SSL certificate path %s", name_.c_str(),
                       info->id(), ssl_certificate_store_.GetCaPath().c_str());
    }
    if (info->pid() != -1) {
      if (credentials_attachment_ == NULL) {
        LogCvmfs(kLogDownload, kLogDebug, "(manager %s - id %" PRId64 ") "
                      "uses secure downloads but no credentials attachment set",
                      name_.c_str(), info->id());
      } else {
        bool retval = credentials_attachment_->ConfigureCurlHandle(
          curl_handle, info->pid(), info->GetCredDataPtr());
        if (!retval) {
          LogCvmfs(kLogDownload, kLogDebug, "(manager %s - id %" PRId64 ") "
                                    "failed attaching credentials",
                                    name_.c_str(), info->id());
        }
      }
    }
    // The download manager disables signal handling in the curl library;
    // as OpenSSL's implementation of TLS will generate a sigpipe in some
    // error paths, we must explicitly disable SIGPIPE here.
    // TODO(jblomer): it should be enough to do this once
    signal(SIGPIPE, SIG_IGN);
  }

  if (url.find("@proxy@") != string::npos) {
    // This is used in Geo-API requests (only), to replace a portion of the
    // URL with the current proxy name for the sake of caching the result.
    // Replace the @proxy@ either with a passed in "forced" template (which
    // is set from $CVMFS_PROXY_TEMPLATE) if there is one, or a "direct"
    // template (which is the uuid) if there's no proxy, or the name of the
    // proxy.
    string replacement;
    if (proxy_template_forced_ != "") {
      replacement = proxy_template_forced_;
    } else if (info->proxy() == "DIRECT") {
      replacement = proxy_template_direct_;
    } else {
      if (opt_proxy_groups_current_ >= opt_proxy_groups_fallback_) {
        // It doesn't make sense to use the fallback proxies in Geo-API requests
        // since the fallback proxies are supposed to get sorted, too.
        info->SetProxy("DIRECT");
        curl_easy_setopt(info->curl_handle(), CURLOPT_PROXY, "");
        replacement = proxy_template_direct_;
      } else {
        replacement = ChooseProxyUnlocked(info->expected_hash())->host.name();
      }
    }
    replacement = (replacement == "") ? proxy_template_direct_ : replacement;
    LogCvmfs(kLogDownload, kLogDebug, "(manager %s - id %" PRId64 ") "
                                "replacing @proxy@ by %s",
                                name_.c_str(), info->id(), replacement.c_str());
    url = ReplaceAll(url, "@proxy@", replacement);
  }

  // TODO(heretherebedragons) before removing
  // static_cast<cvmfs::MemSink*>(info->sink)->size() == 0
  // and just always call info->sink->Reserve()
  // we should do a speed check
  if ((info->sink() != NULL) && info->sink()->RequiresReserve() &&
      (static_cast<cvmfs::MemSink*>(info->sink())->size() == 0) &&
      HasPrefix(url, "file://", false)) {
    platform_stat64 stat_buf;
    int retval = platform_stat(url.c_str(), &stat_buf);
    if (retval != 0) {
      // this is an error: file does not exist or out of memory
      // error is caught in other code section.
      info->sink()->Reserve(64ul * 1024ul);
    } else {
      info->sink()->Reserve(stat_buf.st_size);
    }
  }

  curl_easy_setopt(curl_handle, CURLOPT_URL,
                                            EscapeUrl(info->id(), url).c_str());
}


bool DownloadManager::ValidateProxyIpsUnlocked(
  const string &url,
  const dns::Host &host)
{
  if (!host.IsExpired())
    return false;
  LogCvmfs(kLogDownload, kLogDebug, "(manager '%s') validate DNS entry for %s",
                                    name_.c_str(), host.name().c_str());

  unsigned group_idx = opt_proxy_groups_current_;
  dns::Host new_host = resolver_->Resolve(host.name());

  bool update_only = true;  // No changes to the list of IP addresses.
  if (new_host.status() != dns::kFailOk) {
    // Try again later in case resolving fails.
    LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
             "(manager '%s') failed to resolve IP addresses for %s (%d - %s)",
             name_.c_str(), host.name().c_str(), new_host.status(),
             dns::Code2Ascii(new_host.status()));
    new_host = dns::Host::ExtendDeadline(host, resolver_->min_ttl());
  } else if (!host.IsEquivalent(new_host)) {
    update_only = false;
  }

  if (update_only) {
    for (unsigned i = 0; i < (*opt_proxy_groups_)[group_idx].size(); ++i) {
      if ((*opt_proxy_groups_)[group_idx][i].host.id() == host.id())
        (*opt_proxy_groups_)[group_idx][i].host = new_host;
    }
    return false;
  }

  assert(new_host.status() == dns::kFailOk);

  // Remove old host objects, insert new objects, and rebalance.
  LogCvmfs(kLogDownload, kLogDebug | kLogSyslog,
           "(manager '%s') DNS entries for proxy %s changed, adjusting",
           name_.c_str(), host.name().c_str());
  vector<ProxyInfo> *group = current_proxy_group();
  opt_num_proxies_ -= group->size();
  for (unsigned i = 0; i < group->size(); ) {
    if ((*group)[i].host.id() == host.id()) {
      group->erase(group->begin() + i);
    } else {
      i++;
    }
  }
  vector<ProxyInfo> new_infos;
  set<string> best_addresses = new_host.ViewBestAddresses(opt_ip_preference_);
  set<string>::const_iterator iter_ips = best_addresses.begin();
  for (; iter_ips != best_addresses.end(); ++iter_ips) {
    string url_ip = dns::RewriteUrl(url, *iter_ips);
    new_infos.push_back(ProxyInfo(new_host, url_ip));
  }
  group->insert(group->end(), new_infos.begin(), new_infos.end());
  opt_num_proxies_ += new_infos.size();

  std::string msg = "DNS entries for proxy " + host.name() + " changed";

  RebalanceProxiesUnlocked(msg);
  return true;
}


void DownloadManager::UpdateStatistics(CURL *handle) {
  double val;
  int retval;
  int64_t sum = 0;

  retval = curl_easy_getinfo(handle, CURLINFO_SIZE_DOWNLOAD, &val);
  assert(retval == CURLE_OK);
  sum += static_cast<int64_t>(val);
  /*retval = curl_easy_getinfo(handle, CURLINFO_HEADER_SIZE, &val);
  assert(retval == CURLE_OK);
  sum += static_cast<int64_t>(val);*/
  perf::Xadd(counters_->sz_transferred_bytes, sum);
}


bool DownloadManager::CanRetry(const JobInfo *info) {
  MutexLockGuard m(lock_options_);
  unsigned max_retries = opt_max_retries_;

  return !(info->nocache()) && (info->num_retries() < max_retries) &&
          (IsProxyTransferError(info->error_code()) ||
           IsHostTransferError(info->error_code()));
}

void DownloadManager::Backoff(JobInfo *info) {
  unsigned backoff_init_ms = 0;
  unsigned backoff_max_ms = 0;
  {
    MutexLockGuard m(lock_options_);
    backoff_init_ms = opt_backoff_init_ms_;
    backoff_max_ms = opt_backoff_max_ms_;
  }

  info->SetNumRetries(info->num_retries() + 1);
  perf::Inc(counters_->n_retries);
  if (info->backoff_ms() == 0) {
    info->SetBackoffMs(prng_.Next(backoff_init_ms + 1));  // Must be != 0
  } else {
    info->SetBackoffMs(info->backoff_ms() * 2);
  }
  if (info->backoff_ms() > backoff_max_ms) {
    info->SetBackoffMs(backoff_max_ms);
  }

  LogCvmfs(kLogDownload, kLogDebug,
                        "(manager '%s' - id %" PRId64 ") backing off for %d ms",
                        name_.c_str(), info->id(), info->backoff_ms());
  SafeSleepMs(info->backoff_ms());
}

void DownloadManager::SetNocache(JobInfo *info) {
  if (info->nocache())
    return;
  header_lists_->AppendHeader(info->headers(), "Pragma: no-cache");
  header_lists_->AppendHeader(info->headers(), "Cache-Control: no-cache");
  curl_easy_setopt(info->curl_handle(), CURLOPT_HTTPHEADER, info->headers());
  info->SetNocache(true);
}


void DownloadManager::SetRegularCache(JobInfo *info) {
  if (info->nocache() == false)
    return;
  header_lists_->CutHeader("Pragma: no-cache", info->GetHeadersPtr());
  header_lists_->CutHeader("Cache-Control: no-cache", info->GetHeadersPtr());
  curl_easy_setopt(info->curl_handle(), CURLOPT_HTTPHEADER, info->headers());
  info->SetNocache(false);
}


void DownloadManager::ReleaseCredential(JobInfo *info) {
  if (info->cred_data()) {
    assert(credentials_attachment_ != NULL);  // Someone must have set it
    credentials_attachment_->ReleaseCurlHandle(info->curl_handle(),
                                               info->cred_data());
    info->SetCredData(NULL);
  }
}


bool DownloadManager::VerifyAndFinalize(const int curl_error, JobInfo *info) {
  LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                           "Verify downloaded url %s, proxy %s (curl error %d)",
                           name_.c_str(), info->id(), info->url()->c_str(),
                           info->proxy().c_str(), curl_error);
  UpdateStatistics(info->curl_handle());

  // Verification and error classification
  switch (curl_error) {
    case CURLE_OK:
      // Verify content hash
      if (info->expected_hash()) {
        shash::Any match_hash;
        shash::Final(info->hash_context(), &match_hash);
        if (match_hash != *(info->expected_hash())) {
          if (ignore_signature_failures_) {
            LogCvmfs(kLogDownload, kLogDebug | kLogSyslogErr,
                "(manager '%s' - id %" PRId64 ") "
                "ignoring failed hash verification of %s (expected %s, got %s)",
                name_.c_str(), info->id(), info->url()->c_str(),
                info->expected_hash()->ToString().c_str(),
                match_hash.ToString().c_str());
          } else {
            LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                         "hash verification of %s failed (expected %s, got %s)",
                         name_.c_str(), info->id(), info->url()->c_str(),
                         info->expected_hash()->ToString().c_str(),
                         match_hash.ToString().c_str());
            info->SetErrorCode(kFailBadData);
            break;
          }
        }
      }

      info->SetErrorCode(kFailOk);
      break;
    case CURLE_UNSUPPORTED_PROTOCOL:
      info->SetErrorCode(kFailUnsupportedProtocol);
      break;
    case CURLE_URL_MALFORMAT:
      info->SetErrorCode(kFailBadUrl);
      break;
    case CURLE_COULDNT_RESOLVE_PROXY:
      info->SetErrorCode(kFailProxyResolve);
      break;
    case CURLE_COULDNT_RESOLVE_HOST:
      info->SetErrorCode(kFailHostResolve);
      break;
    case CURLE_OPERATION_TIMEDOUT:
    info->SetErrorCode((info->proxy() == "DIRECT") ?
                         kFailHostTooSlow : kFailProxyTooSlow);
      break;
    case CURLE_PARTIAL_FILE:
    case CURLE_GOT_NOTHING:
    case CURLE_RECV_ERROR:
      info->SetErrorCode((info->proxy() == "DIRECT") ?
                         kFailHostShortTransfer : kFailProxyShortTransfer);
      break;
    case CURLE_FILE_COULDNT_READ_FILE:
    case CURLE_COULDNT_CONNECT:
      if (info->proxy() != "DIRECT") {
        // This is a guess.  Fail-over can still change to switching host
        info->SetErrorCode(kFailProxyConnection);
      } else {
        info->SetErrorCode(kFailHostConnection);
      }
      break;
    case CURLE_TOO_MANY_REDIRECTS:
      info->SetErrorCode(kFailHostConnection);
      break;
    case CURLE_SSL_CACERT_BADFILE:
      LogCvmfs(kLogDownload, kLogDebug | kLogSyslogErr,
               "(manager '%s' -id %" PRId64 ") "
               "Failed to load certificate bundle. "
               "X509_CERT_BUNDLE might point to the wrong location.",
               name_.c_str(), info->id());
      info->SetErrorCode(kFailHostConnection);
      break;
    // As of curl 7.62.0, CURLE_SSL_CACERT is the same as
    // CURLE_PEER_FAILED_VERIFICATION
    case CURLE_PEER_FAILED_VERIFICATION:
      LogCvmfs(kLogDownload, kLogDebug | kLogSyslogErr,
               "(manager '%s' - id %" PRId64 ") "
               "invalid SSL certificate of remote host. "
               "X509_CERT_DIR and/or X509_CERT_BUNDLE might point to the wrong "
               "location.", name_.c_str(), info->id());
      info->SetErrorCode(kFailHostConnection);
      break;
    case CURLE_ABORTED_BY_CALLBACK:
    case CURLE_WRITE_ERROR:
      // Error set by callback
      break;
    case CURLE_SEND_ERROR:
      // The curl error CURLE_SEND_ERROR can be seen when a cache is misbehaving
      // and closing connections before the http request send is completed.
      // Handle this error, treating it as a short transfer error.
      info->SetErrorCode((info->proxy() == "DIRECT") ?
        kFailHostShortTransfer : kFailProxyShortTransfer);
      break;
    default:
      LogCvmfs(kLogDownload, kLogSyslogErr, "(manager '%s' - id %" PRId64 ") "
                   "unexpected curl error (%d) while trying to fetch %s",
                   name_.c_str(), info->id(), curl_error, info->url()->c_str());
      info->SetErrorCode(kFailOther);
      break;
  }

  std::vector<std::string> *host_chain = opt_host_chain_;

  // Determination if download should be repeated
  bool try_again = false;
  bool same_url_retry = CanRetry(info);
  if (info->error_code() != kFailOk) {
    MutexLockGuard m(lock_options_);
    if (info->error_code() == kFailBadData) {
      if (!info->nocache()) {
        try_again = true;
      } else {
        // Make it a host failure
        LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
                       "(manager '%s' - id %" PRId64 ") "
                       "data corruption with no-cache header, try another host",
                       name_.c_str(), info->id());

        info->SetErrorCode(kFailHostHttp);
      }
    }
    if ( same_url_retry || (
         ( (info->error_code() == kFailHostResolve) ||
           IsHostTransferError(info->error_code()) ||
           (info->error_code() == kFailHostHttp)) &&
         info->probe_hosts() &&
         host_chain && (info->num_used_hosts() < host_chain->size()))
       )
    {
      try_again = true;
    }
    if ( same_url_retry || (
         ( (info->error_code() == kFailProxyResolve) ||
           IsProxyTransferError(info->error_code()) ||
           (info->error_code() == kFailProxyHttp)) )
       )
    {
      if (sharding_policy_.UseCount() > 0) {  // sharding policy
       try_again = true;
       same_url_retry = false;
      } else {  // no sharding
        try_again = true;
        // If all proxies failed, do a next round with the next host
        if (!same_url_retry && (info->num_used_proxies() >= opt_num_proxies_)) {
          // Check if this can be made a host fail-over
          if (info->probe_hosts() &&
              host_chain &&
              (info->num_used_hosts() < host_chain->size()))
          {
            // reset proxy group if not already performed by other handle
            if (opt_proxy_groups_) {
              if ((opt_proxy_groups_current_ > 0) ||
                  (opt_proxy_groups_current_burned_ > 0))
              {
                opt_proxy_groups_current_ = 0;
                opt_timestamp_backup_proxies_ = 0;
                RebalanceProxiesUnlocked("reset proxies for host failover");
              }
            }

            // Make it a host failure
            LogCvmfs(kLogDownload, kLogDebug,
                       "(manager '%s' - id %" PRId64 ") make it a host failure",
                       name_.c_str(), info->id());
            info->SetNumUsedProxies(1);
            info->SetErrorCode(kFailHostAfterProxy);
          } else {
            if (failover_indefinitely_) {
              // Instead of giving up, reset the num_used_proxies counter,
              // switch proxy and try again
              LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
                   "(manager '%s' - id %" PRId64 ") "
                   "VerifyAndFinalize() would fail the download here. "
                   "Instead switch proxy and retry download. "
                   "info->probe_hosts=%d host_chain=%p info->num_used_hosts=%d "
                   "host_chain->size()=%lu same_url_retry=%d "
                   "info->num_used_proxies=%d opt_num_proxies_=%d",
                   name_.c_str(), info->id(),
                   static_cast<int>(info->probe_hosts()),
                   host_chain, info->num_used_hosts(),
                   host_chain ?
                      host_chain->size() : -1, static_cast<int>(same_url_retry),
                   info->num_used_proxies(), opt_num_proxies_);
              info->SetNumUsedProxies(1);
              RebalanceProxiesUnlocked(
                                     "download failed - failover indefinitely");
              try_again = !Interrupted(fqrn_, info);
            } else {
              try_again = false;
            }
          }
        }  // Make a proxy failure a host failure
      }  // Proxy failure assumed
    }  // end !sharding
  }

  if (try_again) {
    LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                              "Trying again on same curl handle, same url: %d, "
                              "error code %d no-cache %d",
                              name_.c_str(), info->id(), same_url_retry,
                              info->error_code(), info->nocache());
    // Reset internal state and destination
    if (info->sink() != NULL && info->sink()->Reset() != 0) {
      info->SetErrorCode(kFailLocalIO);
      goto verify_and_finalize_stop;
    }
    if (info->interrupt_cue() && info->interrupt_cue()->IsCanceled()) {
      info->SetErrorCode(kFailCanceled);
      goto verify_and_finalize_stop;
    }

    if (info->expected_hash()) {
      shash::Init(info->hash_context());
    }
    if (info->compressed()) {
      zlib::DecompressInit(info->GetZstreamPtr());
    }

    if (sharding_policy_.UseCount() > 0) {  // sharding policy
      ReleaseCredential(info);
      SetUrlOptions(info);
    } else {  // no sharding policy
      SetRegularCache(info);

      // Failure handling
      bool switch_proxy = false;
      bool switch_host = false;
      switch (info->error_code()) {
        case kFailBadData:
          SetNocache(info);
          break;
        case kFailProxyResolve:
        case kFailProxyHttp:
          switch_proxy = true;
          break;
        case kFailHostResolve:
        case kFailHostHttp:
        case kFailHostAfterProxy:
          switch_host = true;
          break;
        default:
          if (IsProxyTransferError(info->error_code())) {
            if (same_url_retry) {
              Backoff(info);
            } else {
              switch_proxy = true;
            }
          } else if (IsHostTransferError(info->error_code())) {
            if (same_url_retry) {
              Backoff(info);
            } else {
              switch_host = true;
            }
          } else {
            // No other errors expected when retrying
            PANIC(NULL);
          }
      }
      if (switch_proxy) {
        ReleaseCredential(info);
        SwitchProxy(info);
        info->SetNumUsedProxies(info->num_used_proxies() + 1);
        SetUrlOptions(info);
      }
      if (switch_host) {
        ReleaseCredential(info);
        SwitchHost(info);
        info->SetNumUsedHosts(info->num_used_hosts() + 1);
        SetUrlOptions(info);
      }
    }  // end !sharding

    if (failover_indefinitely_) {
      // try again, breaking if there's a cvmfs reload happening and we are in a
      // proxy failover. This will EIO the call application.
      return !Interrupted(fqrn_, info);
    }
    return true;  // try again
  }

 verify_and_finalize_stop:
  // Finalize, flush destination file
  ReleaseCredential(info);
  if (info->sink() != NULL && info->sink()->Flush() != 0) {
    info->SetErrorCode(kFailLocalIO);
  }

  if (info->compressed())
    zlib::DecompressFini(info->GetZstreamPtr());

  if (info->headers()) {
    header_lists_->PutList(info->headers());
    info->SetHeaders(NULL);
  }

  return false;  // stop transfer and return to Fetch()
}

DownloadManager::~DownloadManager() {
  // cleaned up fini
  if (sharding_policy_.UseCount() > 0) {
    sharding_policy_.Reset();
  }
  if (health_check_.UseCount() > 0) {
    if (health_check_.Unique()) {
      LogCvmfs(kLogDownload, kLogDebug,
                   "(manager '%s') Stopping healthcheck thread", name_.c_str());
      health_check_->StopHealthcheck();
    }
    health_check_.Reset();
  }

  if (atomic_xadd32(&multi_threaded_, 0) == 1) {
    // Shutdown I/O thread
    pipe_terminate_->Write(kPipeTerminateSignal);
    pthread_join(thread_download_, NULL);
    // All handles are removed from the multi stack
    pipe_terminate_.Destroy();
    pipe_jobs_.Destroy();
  }

  for (set<CURL *>::iterator i = pool_handles_idle_->begin(),
       iEnd = pool_handles_idle_->end(); i != iEnd; ++i)
  {
    curl_easy_cleanup(*i);
  }

  delete pool_handles_idle_;
  delete pool_handles_inuse_;
  curl_multi_cleanup(curl_multi_);

  delete header_lists_;
  if (user_agent_)
    free(user_agent_);

  delete counters_;
  delete opt_host_chain_;
  delete opt_host_chain_rtt_;
  delete opt_proxy_groups_;

  curl_global_cleanup();
  delete resolver_;

  // old destructor
  pthread_mutex_destroy(lock_options_);
  pthread_mutex_destroy(lock_synchronous_mode_);
  free(lock_options_);
  free(lock_synchronous_mode_);
}

void DownloadManager::InitHeaders() {
  // User-Agent
  string cernvm_id = "User-Agent: cvmfs ";
#ifdef CVMFS_LIBCVMFS
  cernvm_id += "libcvmfs ";
#else
  cernvm_id += "Fuse ";
#endif
  cernvm_id += string(VERSION);
  if (getenv("CERNVM_UUID") != NULL) {
    cernvm_id += " " +
    sanitizer::InputSanitizer("az AZ 09 -").Filter(getenv("CERNVM_UUID"));
  }
  user_agent_ = strdup(cernvm_id.c_str());

  header_lists_ = new HeaderLists();

  default_headers_ = header_lists_->GetList("Connection: Keep-Alive");
  header_lists_->AppendHeader(default_headers_, "Pragma:");
  header_lists_->AppendHeader(default_headers_, user_agent_);
}

DownloadManager::DownloadManager(const unsigned max_pool_handles,
                           const perf::StatisticsTemplate &statistics,
                           const std::string &name) :
                  prng_(Prng()),
                  pool_handles_idle_(new set<CURL *>),
                  pool_handles_inuse_(new set<CURL *>),
                  pool_max_handles_(max_pool_handles),
                  pipe_terminate_(NULL),
                  pipe_jobs_(NULL),
                  watch_fds_(NULL),
                  watch_fds_size_(0),
                  watch_fds_inuse_(0),
                  watch_fds_max_(4 * max_pool_handles),
                  opt_timeout_proxy_(5),
                  opt_timeout_direct_(10),
                  opt_low_speed_limit_(1024),
                  opt_max_retries_(0),
                  opt_backoff_init_ms_(0),
                  opt_backoff_max_ms_(0),
                  enable_info_header_(false),
                  opt_ipv4_only_(false),
                  follow_redirects_(false),
                  ignore_signature_failures_(false),
                  enable_http_tracing_(false),
                  opt_host_chain_(NULL),
                  opt_host_chain_rtt_(NULL),
                  opt_host_chain_current_(0),
                  opt_proxy_groups_(NULL),
                  opt_proxy_groups_current_(0),
                  opt_proxy_groups_current_burned_(0),
                  opt_proxy_groups_fallback_(0),
                  opt_num_proxies_(0),
                  opt_proxy_shard_(false),
                  failover_indefinitely_(false),
                  name_(name),
                  opt_ip_preference_(dns::kIpPreferSystem),
                  opt_timestamp_backup_proxies_(0),
                  opt_timestamp_failover_proxies_(0),
                  opt_proxy_groups_reset_after_(0),
                  opt_timestamp_backup_host_(0),
                  opt_host_reset_after_(0),
                  credentials_attachment_(NULL),
                  counters_(new Counters(statistics))
{
  atomic_init32(&multi_threaded_);

  lock_options_ =
          reinterpret_cast<pthread_mutex_t *>(smalloc(sizeof(pthread_mutex_t)));
  int retval = pthread_mutex_init(lock_options_, NULL);
  assert(retval == 0);
  lock_synchronous_mode_ =
          reinterpret_cast<pthread_mutex_t *>(smalloc(sizeof(pthread_mutex_t)));
  retval = pthread_mutex_init(lock_synchronous_mode_, NULL);
  assert(retval == 0);

  retval = curl_global_init(CURL_GLOBAL_ALL);
  assert(retval == CURLE_OK);

  InitHeaders();

  curl_multi_ = curl_multi_init();
  assert(curl_multi_ != NULL);
  curl_multi_setopt(curl_multi_, CURLMOPT_SOCKETFUNCTION, CallbackCurlSocket);
  curl_multi_setopt(curl_multi_, CURLMOPT_SOCKETDATA,
                    static_cast<void *>(this));
  curl_multi_setopt(curl_multi_, CURLMOPT_MAXCONNECTS, watch_fds_max_);
  curl_multi_setopt(curl_multi_, CURLMOPT_MAX_TOTAL_CONNECTIONS,
                    pool_max_handles_);

  prng_.InitLocaltime();

  // Name resolving
  if ((getenv("CVMFS_IPV4_ONLY") != NULL) &&
      (strlen(getenv("CVMFS_IPV4_ONLY")) > 0))
  {
    opt_ipv4_only_ = true;
  }
  resolver_ = dns::NormalResolver::Create(opt_ipv4_only_,
    kDnsDefaultRetries, kDnsDefaultTimeoutMs);
  assert(resolver_);
}

void DownloadManager::Spawn() {
  pipe_terminate_ = new Pipe<kPipeThreadTerminator>();
  pipe_jobs_ = new Pipe<kPipeDownloadJobs>();

  int retval = pthread_create(&thread_download_, NULL, MainDownload,
                              static_cast<void *>(this));
  assert(retval == 0);

  atomic_inc32(&multi_threaded_);

  if (health_check_.UseCount() > 0) {
    LogCvmfs(kLogDownload, kLogDebug,
                   "(manager '%s') Starting healthcheck thread", name_.c_str());
    health_check_->StartHealthcheck();
  }
}


Failures DownloadManager::Fetch(JobInfo *info) {
  assert(info != NULL);
  assert(info->url() != NULL);

  Failures result;
  result = PrepareDownloadDestination(info);
  if (result != kFailOk)
    return result;

  if (info->expected_hash()) {
    const shash::Algorithms algorithm = info->expected_hash()->algorithm;
    info->GetHashContextPtr()->algorithm = algorithm;
    info->GetHashContextPtr()->size = shash::GetContextSize(algorithm);
    info->GetHashContextPtr()->buffer = alloca(info->hash_context().size);
  }

  // Prepare cvmfs-info: header, allocate string on the stack
  info->SetInfoHeader(NULL);
  if (enable_info_header_ && info->extra_info()) {
    const char *header_name = "cvmfs-info: ";
    const size_t header_name_len = strlen(header_name);
    const unsigned header_size = 1 + header_name_len +
      EscapeHeader(*(info->extra_info()), NULL, 0);
    info->SetInfoHeader(static_cast<char *>(alloca(header_size)));
    memcpy(info->info_header(), header_name, header_name_len);
    EscapeHeader(*(info->extra_info()), info->info_header() + header_name_len,
                 header_size - header_name_len);
    info->info_header()[header_size-1] = '\0';
  }

  if (enable_http_tracing_) {
    const std::string str_pid = "X-CVMFS-PID: " + StringifyInt(info->pid());
    const std::string str_gid = "X-CVMFS-GID: " + StringifyUint(info->gid());
    const std::string str_uid = "X-CVMFS-UID: " + StringifyUint(info->uid());

    // will be auto freed at the end of this function Fetch(JobInfo *info)
    info->SetTracingHeaderPid(static_cast<char *>(alloca(str_pid.size() + 1)));
    info->SetTracingHeaderGid(static_cast<char *>(alloca(str_gid.size() + 1)));
    info->SetTracingHeaderUid(static_cast<char *>(alloca(str_uid.size() + 1)));

    memcpy(info->tracing_header_pid(), str_pid.c_str(), str_pid.size() + 1);
    memcpy(info->tracing_header_gid(), str_gid.c_str(), str_gid.size() + 1);
    memcpy(info->tracing_header_uid(), str_uid.c_str(), str_uid.size() + 1);
  }

  if (atomic_xadd32(&multi_threaded_, 0) == 1) {
    if (!info->IsValidPipeJobResults()) {
      info->CreatePipeJobResults();
    }
    if (!info->IsValidDataTube()) {
      info->CreateDataTube();
    }

    // LogCvmfs(kLogDownload, kLogDebug, "send job to thread, pipe %d %d",
    //          info->wait_at[0], info->wait_at[1]);
    pipe_jobs_->Write<JobInfo*>(info);

    do {
      DataTubeElement* ele = info->GetDataTubePtr()->PopFront();

      if (ele->action == kActionStop) {
        delete ele;
        break;
      }
      // TODO(heretherebedragons) add compression
    } while (true);

    info->GetPipeJobResultPtr()->Read<download::Failures>(&result);
    // LogCvmfs(kLogDownload, kLogDebug, "got result %d", result);
  } else {
    MutexLockGuard l(lock_synchronous_mode_);
    CURL *handle = AcquireCurlHandle();
    InitializeRequest(info, handle);
    SetUrlOptions(info);
    // curl_easy_setopt(handle, CURLOPT_VERBOSE, 1);
    int retval;
    do {
      retval = curl_easy_perform(handle);
      perf::Inc(counters_->n_requests);
      double elapsed;
      if (curl_easy_getinfo(handle, CURLINFO_TOTAL_TIME, &elapsed) == CURLE_OK)
      {
        perf::Xadd(counters_->sz_transfer_time,
                   static_cast<int64_t>(elapsed * 1000));
      }
    } while (VerifyAndFinalize(retval, info));
    result = info->error_code();
    ReleaseCurlHandle(info->curl_handle());
  }

  if (result != kFailOk) {
    LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                                      "download failed (error %d - %s)",
                                      name_.c_str(),
                                      info->id(), result, Code2Ascii(result));

    if (info->sink() != NULL) {
      info->sink()->Purge();
    }
  }

  return result;
}


void DownloadManager::SetCredentialsAttachment(CredentialsAttachment *ca) {
  MutexLockGuard m(lock_options_);
  credentials_attachment_ = ca;
}

std::string DownloadManager::GetDnsServer() const {
  return opt_dns_server_;
}

void DownloadManager::SetDnsServer(const string &address) {
  if (!address.empty()) {
    MutexLockGuard m(lock_options_);
    opt_dns_server_ = address;
    assert(!opt_dns_server_.empty());

    vector<string> servers;
    servers.push_back(address);
    bool retval = resolver_->SetResolvers(servers);
    assert(retval);
  }
  LogCvmfs(kLogDownload, kLogSyslog, "(manager '%s') set nameserver to %s",
                                     name_.c_str(), address.c_str());
}


void DownloadManager::SetDnsParameters(
  const unsigned retries,
  const unsigned timeout_ms)
{
  MutexLockGuard m(lock_options_);
  if ((resolver_->retries() == retries) &&
      (resolver_->timeout_ms() == timeout_ms))
  {
    return;
  }
  delete resolver_;
  resolver_ = NULL;
  resolver_ =
    dns::NormalResolver::Create(opt_ipv4_only_, retries, timeout_ms);
  assert(resolver_);
}


void DownloadManager::SetDnsTtlLimits(
  const unsigned min_seconds,
  const unsigned max_seconds)
{
  MutexLockGuard m(lock_options_);
  resolver_->set_min_ttl(min_seconds);
  resolver_->set_max_ttl(max_seconds);
}


void DownloadManager::SetIpPreference(dns::IpPreference preference) {
  MutexLockGuard m(lock_options_);
  opt_ip_preference_ = preference;
}


void DownloadManager::SetTimeout(const unsigned seconds_proxy,
                                 const unsigned seconds_direct)
{
  MutexLockGuard m(lock_options_);
  opt_timeout_proxy_ = seconds_proxy;
  opt_timeout_direct_ = seconds_direct;
}


void DownloadManager::SetLowSpeedLimit(const unsigned low_speed_limit) {
  MutexLockGuard m(lock_options_);
  opt_low_speed_limit_ = low_speed_limit;
}


void DownloadManager::GetTimeout(unsigned *seconds_proxy,
                                 unsigned *seconds_direct)
{
  MutexLockGuard m(lock_options_);
  *seconds_proxy = opt_timeout_proxy_;
  *seconds_direct = opt_timeout_direct_;
}


void DownloadManager::SetHostChain(const string &host_list) {
  SetHostChain(SplitString(host_list, ';'));
}


void DownloadManager::SetHostChain(const std::vector<std::string> &host_list) {
  MutexLockGuard m(lock_options_);
  opt_timestamp_backup_host_ = 0;
  delete opt_host_chain_;
  delete opt_host_chain_rtt_;
  opt_host_chain_current_ = 0;

  if (host_list.empty()) {
    opt_host_chain_ = NULL;
    opt_host_chain_rtt_ = NULL;
    return;
  }

  opt_host_chain_ = new vector<string>(host_list);
  opt_host_chain_rtt_ =
    new vector<int>(opt_host_chain_->size(), kProbeUnprobed);
  // LogCvmfs(kLogDownload, kLogSyslog, "using host %s",
  //          (*opt_host_chain_)[0].c_str());
}



void DownloadManager::GetHostInfo(vector<string> *host_chain, vector<int> *rtt,
                                  unsigned *current_host)
{
  MutexLockGuard m(lock_options_);
  if (opt_host_chain_) {
    if (current_host) {*current_host = opt_host_chain_current_;}
    if (host_chain) {*host_chain = *opt_host_chain_;}
    if (rtt) {*rtt = *opt_host_chain_rtt_;}
  }
}


void DownloadManager::SwitchProxy(JobInfo *info) {
  MutexLockGuard m(lock_options_);

  if (!opt_proxy_groups_) {
    return;
  }

  // Fail any matching proxies within the current load-balancing group
  vector<ProxyInfo> *group = current_proxy_group();
  const unsigned group_size = group->size();
  unsigned failed = 0;
  for (unsigned i = 0; i < group_size - opt_proxy_groups_current_burned_; ++i) {
    if (info && (info->proxy() == (*group)[i].url)) {
      // Move to list of failed proxies
      opt_proxy_groups_current_burned_++;
      swap((*group)[i],
           (*group)[group_size - opt_proxy_groups_current_burned_]);
      perf::Inc(counters_->n_proxy_failover);
      failed++;
    }
  }

  // Do nothing more unless at least one proxy was marked as failed
  if (!failed)
    return;

  // If all proxies from the current load-balancing group are burned, switch to
  // another group
  if (opt_proxy_groups_current_burned_ == group->size()) {
    opt_proxy_groups_current_burned_ = 0;
    if (opt_proxy_groups_->size() > 1) {
      opt_proxy_groups_current_ = (opt_proxy_groups_current_ + 1) %
      opt_proxy_groups_->size();
      // Remember the timestamp of switching to backup proxies
      if (opt_proxy_groups_reset_after_ > 0) {
        if (opt_proxy_groups_current_ > 0) {
          if (opt_timestamp_backup_proxies_ == 0)
            opt_timestamp_backup_proxies_ = time(NULL);
          // LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
          //          "switched to (another) backup proxy group");
        } else {
          opt_timestamp_backup_proxies_ = 0;
          // LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
          //          "switched back to primary proxy group");
        }
        opt_timestamp_failover_proxies_ = 0;
      }
    }
  } else {
    // Record failover time
    if (opt_proxy_groups_reset_after_ > 0) {
      if (opt_timestamp_failover_proxies_ == 0)
        opt_timestamp_failover_proxies_ = time(NULL);
    }
  }

  UpdateProxiesUnlocked("failed proxy");
  LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
              "%lu proxies remain in group", name_.c_str(), info->id(),
              current_proxy_group()->size() - opt_proxy_groups_current_burned_);
}


void DownloadManager::SwitchHost(JobInfo *info) {
  MutexLockGuard m(lock_options_);

  if (!opt_host_chain_ || (opt_host_chain_->size() == 1)) {
    return;
  }

  if (info && (info->current_host_chain_index() != opt_host_chain_current_)) {
    LogCvmfs(kLogDownload, kLogDebug,
             "(manager '%s' - id %" PRId64 ")"
             "don't switch host, "
             "last used host: %s, current host: %s", name_.c_str(), info->id(),
             (*opt_host_chain_)[info->current_host_chain_index()].c_str(),
             (*opt_host_chain_)[opt_host_chain_current_].c_str());
    return;
  }

  string reason = "manually triggered";
  string info_id = "(manager " + name_;
  if (info) {
    reason = download::Code2Ascii(info->error_code());
    info_id = " - id " + StringifyInt(info->id());
  }
  info_id += ")";

  string old_host = (*opt_host_chain_)[opt_host_chain_current_];
  opt_host_chain_current_ =
      (opt_host_chain_current_ + 1) % opt_host_chain_->size();
  perf::Inc(counters_->n_host_failover);
  LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
          "%s switching host from %s to %s (%s)", info_id.c_str(),
          old_host.c_str(), (*opt_host_chain_)[opt_host_chain_current_].c_str(),
          reason.c_str());

  // Remember the timestamp of switching to backup host
  if (opt_host_reset_after_ > 0) {
    if (opt_host_chain_current_ != 0) {
      if (opt_timestamp_backup_host_ == 0)
        opt_timestamp_backup_host_ = time(NULL);
    } else {
      opt_timestamp_backup_host_ = 0;
    }
  }
}

void DownloadManager::SwitchHost() {
  SwitchHost(NULL);
}


void DownloadManager::ProbeHosts() {
  vector<string> host_chain;
  vector<int> host_rtt;
  unsigned current_host;

  GetHostInfo(&host_chain, &host_rtt, &current_host);

  // Stopwatch, two times to fill caches first
  unsigned i, retries;
  string url;

  cvmfs::MemSink memsink;
  JobInfo info(&url, false, false, NULL, &memsink);
  for (retries = 0; retries < 2; ++retries) {
    for (i = 0; i < host_chain.size(); ++i) {
      url = host_chain[i] + "/.cvmfspublished";

      struct timeval tv_start, tv_end;
      gettimeofday(&tv_start, NULL);
      Failures result = Fetch(&info);
      gettimeofday(&tv_end, NULL);
      memsink.Reset();
      if (result == kFailOk) {
        host_rtt[i] = static_cast<int>(
          DiffTimeSeconds(tv_start, tv_end) * 1000);
        LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                                          "probing host %s had %dms rtt",
                                          name_.c_str(), info.id(),
                                          url.c_str(), host_rtt[i]);
      } else {
        LogCvmfs(kLogDownload, kLogDebug, "(manager '%s' - id %" PRId64 ") "
                                       "error while probing host %s: %d %s",
                                       name_.c_str(), info.id(),
                                       url.c_str(), result, Code2Ascii(result));
        host_rtt[i] = INT_MAX;
      }
    }
  }

  SortTeam(&host_rtt, &host_chain);
  for (i = 0; i < host_chain.size(); ++i) {
    if (host_rtt[i] == INT_MAX) host_rtt[i] = kProbeDown;
  }

  MutexLockGuard m(lock_options_);
  delete opt_host_chain_;
  delete opt_host_chain_rtt_;
  opt_host_chain_ = new vector<string>(host_chain);
  opt_host_chain_rtt_ = new vector<int>(host_rtt);
  opt_host_chain_current_ = 0;
}

bool DownloadManager::GeoSortServers(std::vector<std::string> *servers,
                    std::vector<uint64_t> *output_order) {
  if (!servers) {return false;}
  if (servers->size() == 1) {
    if (output_order) {
      output_order->clear();
      output_order->push_back(0);
    }
    return true;
  }

  std::vector<std::string> host_chain;
  GetHostInfo(&host_chain, NULL, NULL);

  std::vector<std::string> server_dns_names;
  server_dns_names.reserve(servers->size());
  for (unsigned i = 0; i < servers->size(); ++i) {
    std::string host = dns::ExtractHost((*servers)[i]);
    server_dns_names.push_back(host.empty() ? (*servers)[i] : host);
  }
  std::string host_list = JoinStrings(server_dns_names, ",");

  vector<string> host_chain_shuffled;
  {
    // Protect against concurrent access to prng_
    MutexLockGuard m(lock_options_);
    // Determine random hosts for the Geo-API query
    host_chain_shuffled = Shuffle(host_chain, &prng_);
  }
  // Request ordered list via Geo-API
  bool success = false;
  unsigned max_attempts = std::min(host_chain_shuffled.size(), size_t(3));
  vector<uint64_t> geo_order(servers->size());
  for (unsigned i = 0; i < max_attempts; ++i) {
    string url = host_chain_shuffled[i] + "/api/v1.0/geo/@proxy@/" + host_list;
    LogCvmfs(kLogDownload, kLogDebug,
             "(manager '%s') requesting ordered server list from %s",
             name_.c_str(), url.c_str());
    cvmfs::MemSink memsink;
    JobInfo info(&url, false, false, NULL, &memsink);
    Failures result = Fetch(&info);
    if (result == kFailOk) {
      string order(reinterpret_cast<char*>(memsink.data()), memsink.pos());
      memsink.Reset();
      bool retval = ValidateGeoReply(order, servers->size(), &geo_order);
      if (!retval) {
        LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
                 "(manager '%s') retrieved invalid GeoAPI reply from %s [%s]",
                 name_.c_str(), url.c_str(), order.c_str());
      } else {
        LogCvmfs(kLogDownload, kLogDebug | kLogSyslog, "(manager '%s') "
                              "geographic order of servers retrieved from %s",
                              name_.c_str(),
                              dns::ExtractHost(host_chain_shuffled[i]).c_str());
        // remove new line at end of "order"
        LogCvmfs(kLogDownload, kLogDebug, "order is %s",
                                  Trim(order, true /* trim_newline */).c_str());
        success = true;
        break;
      }
    } else {
      LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
               "(manager '%s') GeoAPI request %s failed with error %d [%s]",
               name_.c_str(), url.c_str(), result, Code2Ascii(result));
    }
  }
  if (!success) {
    LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn, "(manager '%s') "
             "failed to retrieve geographic order from stratum 1 servers",
             name_.c_str());
    return false;
  }

  if (output_order) {
    output_order->swap(geo_order);
  } else {
    std::vector<std::string> sorted_servers;
    sorted_servers.reserve(geo_order.size());
    for (unsigned i = 0; i < geo_order.size(); ++i) {
      uint64_t orderval = geo_order[i];
      sorted_servers.push_back((*servers)[orderval]);
    }
    servers->swap(sorted_servers);
  }
  return true;
}


bool DownloadManager::ProbeGeo() {
  vector<string> host_chain;
  vector<int> host_rtt;
  unsigned current_host;
  vector< vector<ProxyInfo> > proxy_chain;
  unsigned fallback_group;

  GetHostInfo(&host_chain, &host_rtt, &current_host);
  GetProxyInfo(&proxy_chain, NULL, &fallback_group);
  if ((host_chain.size() < 2) && ((proxy_chain.size() - fallback_group) < 2))
    return true;

  vector<string> host_names;
  for (unsigned i = 0; i < host_chain.size(); ++i)
    host_names.push_back(dns::ExtractHost(host_chain[i]));
  SortTeam(&host_names, &host_chain);
  unsigned last_geo_host = host_names.size();

  if ((fallback_group == 0) && (last_geo_host > 1)) {
    // There are no non-fallback proxies, which means that the client
    // will always use the fallback proxies.  Add a keyword separator
    // between the hosts and fallback proxies so the geosorting service
    // will know to sort the hosts based on the distance from the
    // closest fallback proxy rather than the distance from the client.
    host_names.push_back("+PXYSEP+");
  }

  // Add fallback proxy names to the end of the host list
  unsigned first_geo_fallback = host_names.size();
  for (unsigned i = fallback_group; i < proxy_chain.size(); ++i) {
    // We only take the first fallback proxy name from every group under the
    // assumption that load-balanced servers are at the same location
    host_names.push_back(proxy_chain[i][0].host.name());
  }

  std::vector<uint64_t> geo_order;
  bool success = GeoSortServers(&host_names, &geo_order);
  if (!success) {
    // GeoSortServers already logged a failure message.
    return false;
  }

  // Re-install host chain and proxy chain
  MutexLockGuard m(lock_options_);
  delete opt_host_chain_;
  opt_num_proxies_ = 0;
  opt_host_chain_ = new vector<string>(host_chain.size());

  // It's possible that opt_proxy_groups_fallback_ might have changed while
  // the lock wasn't held
  vector<vector<ProxyInfo> > *proxy_groups = new vector<vector<ProxyInfo> >(
      opt_proxy_groups_fallback_ + proxy_chain.size() - fallback_group);
  // First copy the non-fallback part of the current proxy chain
  for (unsigned i = 0; i < opt_proxy_groups_fallback_; ++i) {
    (*proxy_groups)[i] = (*opt_proxy_groups_)[i];
    opt_num_proxies_ += (*opt_proxy_groups_)[i].size();
  }

  // Copy the host chain and fallback proxies by geo order.  Array indices
  // in geo_order that are smaller than last_geo_host refer to a stratum 1,
  // and those indices greater than or equal to first_geo_fallback refer to
  // a fallback proxy.
  unsigned hosti = 0;
  unsigned proxyi = opt_proxy_groups_fallback_;
  for (unsigned i = 0; i < geo_order.size(); ++i) {
    uint64_t orderval = geo_order[i];
    if (orderval < static_cast<uint64_t>(last_geo_host)) {
      // LogCvmfs(kLogCvmfs, kLogSyslog, "this is orderval %u at host index
      // %u", orderval, hosti);
      (*opt_host_chain_)[hosti++] = host_chain[orderval];
    } else if (orderval >= static_cast<uint64_t>(first_geo_fallback)) {
      // LogCvmfs(kLogCvmfs, kLogSyslog,
      // "this is orderval %u at proxy index %u, using proxy_chain index %u",
      // orderval, proxyi, fallback_group + orderval - first_geo_fallback);
      (*proxy_groups)[proxyi] =
          proxy_chain[fallback_group + orderval - first_geo_fallback];
      opt_num_proxies_ += (*proxy_groups)[proxyi].size();
      proxyi++;
    }
  }

  opt_proxy_map_.clear();
  delete opt_proxy_groups_;
  opt_proxy_groups_ = proxy_groups;
  // In pathological cases, opt_proxy_groups_current_ can be larger now when
  // proxies changed in-between.
  if (opt_proxy_groups_current_ > opt_proxy_groups_->size()) {
    if (opt_proxy_groups_->size() == 0) {
      opt_proxy_groups_current_ = 0;
    } else {
      opt_proxy_groups_current_ = opt_proxy_groups_->size() - 1;
    }
    opt_proxy_groups_current_burned_ = 0;
  }

  UpdateProxiesUnlocked("geosort");

  delete opt_host_chain_rtt_;
  opt_host_chain_rtt_ = new vector<int>(host_chain.size(), kProbeGeo);
  opt_host_chain_current_ = 0;

  return true;
}


bool DownloadManager::ValidateGeoReply(
  const string &reply_order,
  const unsigned expected_size,
  vector<uint64_t> *reply_vals)
{
  if (reply_order.empty())
    return false;
  sanitizer::InputSanitizer sanitizer("09 , \n");
  if (!sanitizer.IsValid(reply_order))
    return false;
  sanitizer::InputSanitizer strip_newline("09 ,");
  vector<string> reply_strings =
    SplitString(strip_newline.Filter(reply_order), ',');
  vector<uint64_t> tmp_vals;
  for (unsigned i = 0; i < reply_strings.size(); ++i) {
    if (reply_strings[i].empty())
      return false;
    tmp_vals.push_back(String2Uint64(reply_strings[i]));
  }
  if (tmp_vals.size() != expected_size)
    return false;

  // Check if tmp_vals contains the number 1..n
  set<uint64_t> coverage(tmp_vals.begin(), tmp_vals.end());
  if (coverage.size() != tmp_vals.size())
    return false;
  if ((*coverage.begin() != 1) || (*coverage.rbegin() != coverage.size()))
    return false;

  for (unsigned i = 0; i < expected_size; ++i) {
    (*reply_vals)[i] = tmp_vals[i] - 1;
  }
  return true;
}


bool DownloadManager::StripDirect(
  const string &proxy_list,
  string *cleaned_list)
{
  assert(cleaned_list);
  if (proxy_list == "") {
    *cleaned_list = "";
    return false;
  }
  bool result = false;

  vector<string> proxy_groups = SplitString(proxy_list, ';');
  vector<string> cleaned_groups;
  for (unsigned i = 0; i < proxy_groups.size(); ++i) {
    vector<string> group = SplitString(proxy_groups[i], '|');
    vector<string> cleaned;
    for (unsigned j = 0; j < group.size(); ++j) {
      if ((group[j] == "DIRECT") || (group[j] == "")) {
        result = true;
      } else {
        cleaned.push_back(group[j]);
      }
    }
    if (!cleaned.empty())
      cleaned_groups.push_back(JoinStrings(cleaned, "|"));
  }

  *cleaned_list = JoinStrings(cleaned_groups, ";");
  return result;
}


void DownloadManager::SetProxyChain(
  const string &proxy_list,
  const string &fallback_proxy_list,
  const ProxySetModes set_mode)
{
  MutexLockGuard m(lock_options_);

  opt_timestamp_backup_proxies_ = 0;
  opt_timestamp_failover_proxies_ = 0;
  string set_proxy_list = opt_proxy_list_;
  string set_proxy_fallback_list = opt_proxy_fallback_list_;
  bool contains_direct;
  if ((set_mode == kSetProxyFallback) || (set_mode == kSetProxyBoth)) {
    opt_proxy_fallback_list_ = fallback_proxy_list;
  }
  if ((set_mode == kSetProxyRegular) || (set_mode == kSetProxyBoth)) {
    opt_proxy_list_ = proxy_list;
  }
  contains_direct =
    StripDirect(opt_proxy_fallback_list_, &set_proxy_fallback_list);
  if (contains_direct) {
    LogCvmfs(kLogDownload, kLogSyslogWarn | kLogDebug,
             "(manager '%s') fallback proxies do not support DIRECT, removing",
             name_.c_str());
  }
  if (set_proxy_fallback_list == "") {
    set_proxy_list = opt_proxy_list_;
  } else {
    bool contains_direct = StripDirect(opt_proxy_list_, &set_proxy_list);
    if (contains_direct) {
      LogCvmfs(kLogDownload, kLogSyslog | kLogDebug,
               "(manager '%s') skipping DIRECT proxy to use fallback proxy",
               name_.c_str());
    }
  }

  // From this point on, use set_proxy_list and set_fallback_proxy_list as
  // effective proxy lists!

  opt_proxy_map_.clear();
  delete opt_proxy_groups_;
  if ((set_proxy_list == "") && (set_proxy_fallback_list == "")) {
    opt_proxy_groups_ = NULL;
    opt_proxy_groups_current_ = 0;
    opt_proxy_groups_current_burned_ = 0;
    opt_proxy_groups_fallback_ = 0;
    opt_num_proxies_ = 0;
    return;
  }

  // Determine number of regular proxy groups (== first fallback proxy group)
  opt_proxy_groups_fallback_ = 0;
  if (set_proxy_list != "") {
    opt_proxy_groups_fallback_ = SplitString(set_proxy_list, ';').size();
  }
  LogCvmfs(kLogDownload, kLogDebug, "(manager '%s') "
                                    "first fallback proxy group %u",
                                    name_.c_str(), opt_proxy_groups_fallback_);

  // Concatenate regular proxies and fallback proxies, both of which can be
  // empty.
  string all_proxy_list = set_proxy_list;
  if (set_proxy_fallback_list != "") {
    if (all_proxy_list != "")
      all_proxy_list += ";";
    all_proxy_list += set_proxy_fallback_list;
  }
  LogCvmfs(kLogDownload, kLogDebug, "(manager '%s') full proxy list %s",
                                    name_.c_str(), all_proxy_list.c_str());

  // Resolve server names in provided urls
  vector<string> hostnames;  // All encountered hostnames
  vector<string> proxy_groups;
  if (all_proxy_list != "")
    proxy_groups = SplitString(all_proxy_list, ';');
  for (unsigned i = 0; i < proxy_groups.size(); ++i) {
    vector<string> this_group = SplitString(proxy_groups[i], '|');
    for (unsigned j = 0; j < this_group.size(); ++j) {
      this_group[j] = dns::AddDefaultScheme(this_group[j]);
      // Note: DIRECT strings will be "extracted" to an empty string.
      string hostname = dns::ExtractHost(this_group[j]);
      // Save the hostname.  Leave empty (DIRECT) names so indexes will
      // match later.
      hostnames.push_back(hostname);
    }
  }
  vector<dns::Host> hosts;
  LogCvmfs(kLogDownload, kLogDebug, "(manager '%s') "
                                    "resolving %lu proxy addresses",
                                    name_.c_str(), hostnames.size());
  resolver_->ResolveMany(hostnames, &hosts);

  // Construct opt_proxy_groups_: traverse proxy list in same order and expand
  // names to resolved IP addresses.
  opt_proxy_groups_ = new vector< vector<ProxyInfo> >();
  opt_num_proxies_ = 0;
  unsigned num_proxy = 0;  // Combined i, j counter
  for (unsigned i = 0; i < proxy_groups.size(); ++i) {
    vector<string> this_group = SplitString(proxy_groups[i], '|');
    // Construct ProxyInfo objects from proxy string and DNS resolver result for
    // every proxy in this_group.  One URL can result in multiple ProxyInfo
    // objects, one for each IP address.
    vector<ProxyInfo> infos;
    for (unsigned j = 0; j < this_group.size(); ++j, ++num_proxy) {
      this_group[j] = dns::AddDefaultScheme(this_group[j]);
      if (this_group[j] == "DIRECT") {
        infos.push_back(ProxyInfo("DIRECT"));
        continue;
      }

      if (hosts[num_proxy].status() != dns::kFailOk) {
        LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn, "(manager '%s') "
               "failed to resolve IP addresses for %s (%d - %s)", name_.c_str(),
               hosts[num_proxy].name().c_str(), hosts[num_proxy].status(),
               dns::Code2Ascii(hosts[num_proxy].status()));
        dns::Host failed_host =
          dns::Host::ExtendDeadline(hosts[num_proxy], resolver_->min_ttl());
        infos.push_back(ProxyInfo(failed_host, this_group[j]));
        continue;
      }

      // IPv4 addresses have precedence
      set<string> best_addresses =
        hosts[num_proxy].ViewBestAddresses(opt_ip_preference_);
      set<string>::const_iterator iter_ips = best_addresses.begin();
      for (; iter_ips != best_addresses.end(); ++iter_ips) {
        string url_ip = dns::RewriteUrl(this_group[j], *iter_ips);
        infos.push_back(ProxyInfo(hosts[num_proxy], url_ip));

        if (sharding_policy_.UseCount() > 0) {
          sharding_policy_->AddProxy(url_ip);
        }
      }
    }
    opt_proxy_groups_->push_back(infos);
    opt_num_proxies_ += infos.size();
  }
  LogCvmfs(kLogDownload, kLogDebug,
           "(manager '%s') installed %u proxies in %lu load-balance groups",
           name_.c_str(), opt_num_proxies_, opt_proxy_groups_->size());
  opt_proxy_groups_current_ = 0;
  opt_proxy_groups_current_burned_ = 0;

  // Select random start proxy from the first group.
  if (opt_proxy_groups_->size() > 0) {
    // Select random start proxy from the first group.
    UpdateProxiesUnlocked("set random start proxy from the first proxy group");
  }
}


void DownloadManager::GetProxyInfo(vector< vector<ProxyInfo> > *proxy_chain,
                                   unsigned *current_group,
                                   unsigned *fallback_group)
{
  assert(proxy_chain != NULL);
  MutexLockGuard m(lock_options_);


  if (!opt_proxy_groups_) {
    vector< vector<ProxyInfo> > empty_chain;
    *proxy_chain = empty_chain;
    if (current_group != NULL)
      *current_group = 0;
    if (fallback_group != NULL)
      *fallback_group = 0;
    return;
  }

  *proxy_chain = *opt_proxy_groups_;
  if (current_group != NULL)
    *current_group = opt_proxy_groups_current_;
  if (fallback_group != NULL)
    *fallback_group = opt_proxy_groups_fallback_;
}

string DownloadManager::GetProxyList() {
  return opt_proxy_list_;
}

string DownloadManager::GetFallbackProxyList() {
  return opt_proxy_fallback_list_;
}

DownloadManager::ProxyInfo *
DownloadManager::ChooseProxyUnlocked(const shash::Any *hash) {
  if (!opt_proxy_groups_)
    return NULL;

  uint32_t key = (hash ? hash->Partial32() : 0);
  map<uint32_t, ProxyInfo *>::iterator it = opt_proxy_map_.lower_bound(key);
  ProxyInfo *proxy = it->second;

  return proxy;
}

void DownloadManager::UpdateProxiesUnlocked(const string &reason) {
  if (!opt_proxy_groups_)
    return;

  // Identify number of non-burned proxies within the current group
  vector<ProxyInfo> *group = current_proxy_group();
  unsigned num_alive = (group->size() - opt_proxy_groups_current_burned_);
  string old_proxy = JoinStrings(opt_proxy_urls_, "|");

  // Rebuild proxy map and URL list
  opt_proxy_map_.clear();
  opt_proxy_urls_.clear();
  const uint32_t max_key = 0xffffffffUL;
  if (opt_proxy_shard_) {
    // Build a consistent map with multiple entries for each proxy
    for (unsigned i = 0; i < num_alive; ++i) {
      ProxyInfo *proxy = &(*group)[i];
      shash::Any proxy_hash(shash::kSha1);
      HashString(proxy->url, &proxy_hash);
      Prng prng;
      prng.InitSeed(proxy_hash.Partial32());
      for (unsigned j = 0; j < kProxyMapScale; ++j) {
        const std::pair<uint32_t, ProxyInfo *> entry(prng.Next(max_key), proxy);
        opt_proxy_map_.insert(entry);
      }
      opt_proxy_urls_.push_back(proxy->url);
    }
    // Ensure lower_bound() finds a value for all keys
    ProxyInfo *first_proxy = opt_proxy_map_.begin()->second;
    const std::pair<uint32_t, ProxyInfo *> last_entry(max_key, first_proxy);
    opt_proxy_map_.insert(last_entry);
  } else {
    // Build a map with a single entry for one randomly selected proxy
    unsigned select = prng_.Next(num_alive);
    ProxyInfo *proxy = &(*group)[select];
    const std::pair<uint32_t, ProxyInfo *> entry(max_key, proxy);
    opt_proxy_map_.insert(entry);
    opt_proxy_urls_.push_back(proxy->url);
  }
  sort(opt_proxy_urls_.begin(), opt_proxy_urls_.end());

  // Report any change in proxy usage
  string new_proxy = JoinStrings(opt_proxy_urls_, "|");
  if (new_proxy != old_proxy) {
    LogCvmfs(kLogDownload, kLogDebug | kLogSyslogWarn,
           "(manager '%s') switching proxy from %s to %s. Reason: %s",
           name_.c_str(), (old_proxy.empty() ? "(none)" : old_proxy.c_str()),
           (new_proxy.empty() ? "(none)" : new_proxy.c_str()),
           reason.c_str());
  }
}

void DownloadManager::ShardProxies() {
  opt_proxy_shard_ = true;
  RebalanceProxiesUnlocked("enable sharding");
}

void DownloadManager::RebalanceProxiesUnlocked(const string &reason) {
  if (!opt_proxy_groups_)
    return;

  opt_timestamp_failover_proxies_ = 0;
  opt_proxy_groups_current_burned_ = 0;
  UpdateProxiesUnlocked(reason);
}


void DownloadManager::RebalanceProxies() {
  MutexLockGuard m(lock_options_);
  RebalanceProxiesUnlocked("rebalance invoked manually");
}


void DownloadManager::SwitchProxyGroup() {
  MutexLockGuard m(lock_options_);

  if (!opt_proxy_groups_ || (opt_proxy_groups_->size() < 2)) {
    return;
  }

  opt_proxy_groups_current_ = (opt_proxy_groups_current_ + 1) %
                                                      opt_proxy_groups_->size();
  opt_timestamp_backup_proxies_ = time(NULL);

  std::string msg = "switch to proxy group " +
                                       StringifyUint(opt_proxy_groups_current_);
  RebalanceProxiesUnlocked(msg);
}


void DownloadManager::SetProxyGroupResetDelay(const unsigned seconds) {
  MutexLockGuard m(lock_options_);
  opt_proxy_groups_reset_after_ = seconds;
  if (opt_proxy_groups_reset_after_ == 0) {
    opt_timestamp_backup_proxies_ = 0;
    opt_timestamp_failover_proxies_ = 0;
  }
}


void DownloadManager::SetHostResetDelay(const unsigned seconds)
{
  MutexLockGuard m(lock_options_);
  opt_host_reset_after_ = seconds;
  if (opt_host_reset_after_ == 0)
    opt_timestamp_backup_host_ = 0;
}


void DownloadManager::SetRetryParameters(const unsigned max_retries,
                                         const unsigned backoff_init_ms,
                                         const unsigned backoff_max_ms)
{
  MutexLockGuard m(lock_options_);
  opt_max_retries_ = max_retries;
  opt_backoff_init_ms_ = backoff_init_ms;
  opt_backoff_max_ms_ = backoff_max_ms;
}


void DownloadManager::SetMaxIpaddrPerProxy(unsigned limit) {
  MutexLockGuard m(lock_options_);
  resolver_->set_throttle(limit);
}


void DownloadManager::SetProxyTemplates(
  const std::string &direct,
  const std::string &forced)
{
  MutexLockGuard m(lock_options_);
  proxy_template_direct_ = direct;
  proxy_template_forced_ = forced;
}


void DownloadManager::EnableInfoHeader() {
  enable_info_header_ = true;
}


void DownloadManager::EnableRedirects() {
  follow_redirects_ = true;
}

void DownloadManager::EnableIgnoreSignatureFailures() {
  ignore_signature_failures_ = true;
}

void DownloadManager::EnableHTTPTracing() {
  enable_http_tracing_ = true;
}

void DownloadManager::AddHTTPTracingHeader(const std::string &header) {
  http_tracing_headers_.push_back(header);
}

void DownloadManager::UseSystemCertificatePath() {
  ssl_certificate_store_.UseSystemCertificatePath();
}

bool DownloadManager::SetShardingPolicy(const ShardingPolicySelector type) {
  bool success = false;
  switch (type) {
    default:
      LogCvmfs(kLogDownload, kLogDebug | kLogSyslogErr, "(manager '%s') "
            "Proposed sharding policy does not exist. Falling back to default",
            name_.c_str());
  }
  return success;
}

void DownloadManager::SetFailoverIndefinitely() {
  failover_indefinitely_ = true;
}

DownloadManager *DownloadManager::Clone(
  const perf::StatisticsTemplate &statistics, const std::string &cloned_name)
{
  DownloadManager *clone = new DownloadManager(pool_max_handles_, statistics,
                                               cloned_name);

  clone->SetDnsParameters(resolver_->retries(), resolver_->timeout_ms());
  clone->SetDnsTtlLimits(resolver_->min_ttl(), resolver_->max_ttl());
  clone->SetMaxIpaddrPerProxy(resolver_->throttle());

  if (!opt_dns_server_.empty())
    clone->SetDnsServer(opt_dns_server_);
  clone->opt_timeout_proxy_ = opt_timeout_proxy_;
  clone->opt_timeout_direct_ = opt_timeout_direct_;
  clone->opt_low_speed_limit_ = opt_low_speed_limit_;
  clone->opt_max_retries_ = opt_max_retries_;
  clone->opt_backoff_init_ms_ = opt_backoff_init_ms_;
  clone->opt_backoff_max_ms_ = opt_backoff_max_ms_;
  clone->enable_info_header_ = enable_info_header_;
  clone->enable_http_tracing_ = enable_http_tracing_;
  clone->http_tracing_headers_ = http_tracing_headers_;
  clone->follow_redirects_ = follow_redirects_;
  clone->ignore_signature_failures_ = ignore_signature_failures_;
  if (opt_host_chain_) {
    clone->opt_host_chain_ = new vector<string>(*opt_host_chain_);
    clone->opt_host_chain_rtt_ = new vector<int>(*opt_host_chain_rtt_);
  }

  CloneProxyConfig(clone);
  clone->opt_ip_preference_ = opt_ip_preference_;
  clone->proxy_template_direct_ = proxy_template_direct_;
  clone->proxy_template_forced_ = proxy_template_forced_;
  clone->opt_proxy_groups_reset_after_ = opt_proxy_groups_reset_after_;
  clone->opt_host_reset_after_ = opt_host_reset_after_;
  clone->credentials_attachment_ = credentials_attachment_;
  clone->ssl_certificate_store_ = ssl_certificate_store_;

  clone->health_check_ = health_check_;
  clone->sharding_policy_ = sharding_policy_;
  clone->failover_indefinitely_ = failover_indefinitely_;
  clone->fqrn_ = fqrn_;

  return clone;
}


void DownloadManager::CloneProxyConfig(DownloadManager *clone) {
  clone->opt_proxy_groups_current_ = opt_proxy_groups_current_;
  clone->opt_proxy_groups_current_burned_ = opt_proxy_groups_current_burned_;
  clone->opt_proxy_groups_fallback_ = opt_proxy_groups_fallback_;
  clone->opt_num_proxies_ = opt_num_proxies_;
  clone->opt_proxy_shard_ = opt_proxy_shard_;
  clone->opt_proxy_list_ = opt_proxy_list_;
  clone->opt_proxy_fallback_list_ = opt_proxy_fallback_list_;
  if (opt_proxy_groups_ == NULL)
    return;

  clone->opt_proxy_groups_ = new vector< vector<ProxyInfo> >(
    *opt_proxy_groups_);
  clone->UpdateProxiesUnlocked("cloned");
}

}  // namespace download