示例#1
0
void ICSCFSproutletTsx::on_rx_cancel(int status_code, pjsip_msg* cancel_req)
{
  // If this is cancelling a terminating INVITE then check whether we need to
  // update our session establishment stats.
  if (!_originating &&
      (_req_type == PJSIP_INVITE_METHOD) &&
      (!_session_set_up))
  {
    // Session has failed to establish but for a reason that is not the fault
    // of the network.
    _icscf->_session_establishment_tbl->increment_attempts();
    _icscf->_session_establishment_tbl->increment_failures();
    _icscf->_session_establishment_network_tbl->increment_attempts();
    _icscf->_session_establishment_network_tbl->increment_successes();

    // Set _session_set_up to true so that we don't count this session again
    // when we receive the subsequent final response.
    _session_set_up = true;
  }

  if ((status_code == PJSIP_SC_REQUEST_TERMINATED) &&
      (cancel_req != NULL))
  {
    // Create and send an ACR for the CANCEL request.
    ACR* acr = _icscf->get_acr(trail());

    // @TODO - timestamp from request.
    acr->rx_request(cancel_req);
    acr->send();

    delete acr;
  }
}
示例#2
0
/// Rejects a request statelessly.
void ICSCFProxy::reject_request(pjsip_rx_data* rdata, int status_code)
{
  pj_status_t status;

  ACR* acr = _acr_factory->get_acr(get_trail(rdata), CALLING_PARTY);
  acr->rx_request(rdata->msg_info.msg, rdata->pkt_info.timestamp);

  if (rdata->msg_info.msg->line.req.method.id != PJSIP_ACK_METHOD)
  {
    LOG_ERROR("Rejecting %.*s request with %d status code",
              rdata->msg_info.msg->line.req.method.name.slen,
              rdata->msg_info.msg->line.req.method.name.ptr,
              status_code);
    pjsip_tx_data* tdata;

    status = PJUtils::create_response(stack_data.endpt, rdata, status_code, NULL, &tdata);
    if (status == PJ_SUCCESS)
    {
      // Pass the response to the ACR.
      acr->tx_response(tdata->msg);

      status = pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);
      if (status != PJ_SUCCESS)
      {
        // LCOV_EXCL_START
        pjsip_tx_data_dec_ref(tdata);
        // LCOV_EXCL_STOP
      }
    }
  }

  // Send the ACR and delete it.
  acr->send_message();
  delete acr;
}
示例#3
0
/// Handle a received CANCEL request.
void ICSCFProxy::UASTsx::process_cancel_request(pjsip_rx_data* rdata)
{
  // Pass the CANCEL to the BasicProxy code to handle.
  BasicProxy::UASTsx::process_cancel_request(rdata);

  // Create and send an ACR for the CANCEL request.
  ACR* acr = create_acr();
  acr->rx_request(rdata->msg_info.msg, rdata->pkt_info.timestamp);
  acr->send_message();
  delete acr;
}
示例#4
0
// LCOV_EXCL_START - TODO add to UTs
void BGCFSproutletTsx::on_rx_cancel(int status_code, pjsip_msg* cancel_req)
{
  if ((status_code == PJSIP_SC_REQUEST_TERMINATED) &&
      (cancel_req != NULL))
  {
    // Create and send an ACR for the CANCEL request.
    ACR* acr = _bgcf->get_acr(trail());

    // @TODO - timestamp from request.
    acr->rx_request(cancel_req);
    acr->send();

    delete acr;
  }
}
示例#5
0
void process_subscription_request(pjsip_rx_data* rdata)
{
  pj_status_t status;
  int st_code = PJSIP_SC_OK;

  SAS::TrailId trail = get_trail(rdata);

  // Get the URI from the To header and check it is a SIP or SIPS URI.
  pjsip_uri* uri = (pjsip_uri*)pjsip_uri_get_uri(rdata->msg_info.to->uri);
  pjsip_msg *msg = rdata->msg_info.msg;
  pjsip_expires_hdr* expires = (pjsip_expires_hdr*)pjsip_msg_find_hdr(msg, PJSIP_H_EXPIRES, NULL);
  int expiry = (expires != NULL) ? expires->ivalue : DEFAULT_SUBSCRIPTION_EXPIRES;

  if (expiry > max_expires)
  {
    // Expiry is too long, set it to the maximum.
    expiry = max_expires;
  }

  if ((!PJSIP_URI_SCHEME_IS_SIP(uri)) && (!PJSIP_URI_SCHEME_IS_TEL(uri)))
  {
    // Reject a non-SIP/TEL URI with 404 Not Found (RFC3261 isn't clear
    // whether 404 is the right status code - it says 404 should be used if
    // the AoR isn't valid for the domain in the RequestURI).
    LOG_ERROR("Rejecting subscribe request using invalid URI scheme");

    SAS::Event event(trail, SASEvent::SUBSCRIBE_FAILED_EARLY_URLSCHEME, 0);
    // Can't log the public ID as the subscribe has failed too early
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_NOT_FOUND,
                               NULL,
                               NULL,
                               NULL);
    return;
  }

  bool emergency_subscription = false;

  pjsip_contact_hdr* contact_hdr = (pjsip_contact_hdr*)
                 pjsip_msg_find_hdr(msg, PJSIP_H_CONTACT, NULL);

  while (contact_hdr != NULL)
  {
    emergency_subscription = PJUtils::is_emergency_registration(contact_hdr);

    if (!emergency_subscription)
    {
      break;
    }

    contact_hdr = (pjsip_contact_hdr*) pjsip_msg_find_hdr(rdata->msg_info.msg,
                                                          PJSIP_H_CONTACT,
                                                          contact_hdr->next);
  }

  if (emergency_subscription)
  {
    // Reject a subscription with a Contact header containing a contact address
    // that's been registered for emergency service.
    LOG_ERROR("Rejecting subscribe request from emergency registration");

    SAS::Event event(trail, SASEvent::SUBSCRIBE_FAILED_EARLY_EMERGENCY, 0);
    // Can't log the public ID as the subscribe has failed too early
    SAS::report_event(event);

    // Allow-Events is a mandatory header on 489 responses.
    pjsip_generic_string_hdr* allow_events_hdr = pjsip_generic_string_hdr_create(rdata->tp_info.pool, &STR_ALLOW_EVENTS, &STR_REG);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_BAD_EVENT,
                               NULL,
                               (pjsip_hdr*)allow_events_hdr,
                               NULL);
    return;
  }

  ACR* acr = acr_factory->get_acr(get_trail(rdata),
                                  CALLING_PARTY,
                                  ACR::requested_node_role(rdata->msg_info.msg));
  acr->rx_request(rdata->msg_info.msg, rdata->pkt_info.timestamp);

  // Canonicalize the public ID from the URI in the To header.
  std::string public_id = PJUtils::public_id_from_uri(uri);

  LOG_DEBUG("Process SUBSCRIBE for public ID %s", public_id.c_str());

  // Get the call identifier from the headers.
  std::string cid = PJUtils::pj_str_to_string((const pj_str_t*)&rdata->msg_info.cid->id);;

  // Add SAS markers to the trail attached to the message so the trail
  // becomes searchable.
  SAS::Event event(trail, SASEvent::SUBSCRIBE_START, 0);
  event.add_var_param(public_id);
  SAS::report_event(event);

  LOG_DEBUG("Report SAS start marker - trail (%llx)", trail);
  SAS::Marker start_marker(trail, MARKER_ID_START, 1u);
  SAS::report_marker(start_marker);

  PJUtils::report_sas_to_from_markers(trail, rdata->msg_info.msg);
  PJUtils::mark_sas_call_branch_ids(trail, NULL, rdata->msg_info.msg);

  // Query the HSS for the associated URIs.
  std::vector<std::string> uris;
  std::map<std::string, Ifcs> ifc_map;

  // Subscriber must have already registered to be making a subscribe
  std::string state;
  HTTPCode http_code = hss->get_registration_data(public_id, state, ifc_map, uris, trail);
  if ((http_code != HTTP_OK) || (state != "REGISTERED"))
  {
    // We failed to get the list of associated URIs.  This indicates that the
    // HSS is unavailable, the public identity doesn't exist or the public
    // identity doesn't belong to the private identity.

    // The client shouldn't retry when the subscriber isn't present in the
    // HSS; reject with a 403 in this case.
    //
    // The client should retry on timeout but no other Clearwater nodes should
    // (as Sprout will already have retried on timeout). Reject with a 504
    // (503 is used for overload).
    st_code = PJSIP_SC_SERVER_TIMEOUT;

    if (http_code == HTTP_NOT_FOUND)
    {
      st_code = PJSIP_SC_FORBIDDEN;
    }

    LOG_ERROR("Rejecting SUBSCRIBE request");

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               st_code,
                               NULL,
                               NULL,
                               NULL);
    delete acr;
    return;
  }

  // Determine the AOR from the first entry in the uris array.
  std::string aor = uris.front();

  LOG_DEBUG("aor = %s", aor.c_str());
  LOG_DEBUG("SUBSCRIBE for public ID %s uses AOR %s", public_id.c_str(), aor.c_str());

  // Get the system time in seconds for calculating absolute expiry times.
  int now = time(NULL);

  // Write to the local store, checking the remote store if there is no entry locally. If the write to the local store succeeds, then write to the remote store.
  pjsip_tx_data* tdata_notify = NULL;
  RegStore::AoR* aor_data = NULL;
  std::string subscription_id;
  pj_status_t notify_status = write_subscriptions_to_store(store, aor, rdata,
                                                           now, NULL, remote_store,
                                                           &tdata_notify, &aor_data,
                                                           true, subscription_id,
                                                           trail);

  if (aor_data != NULL)
  {
    // Log the subscriptions.
    log_subscriptions(aor, aor_data);

    // If we have a remote store, try to store this there too.  We don't worry
    // about failures in this case.
    if (remote_store != NULL)
    {
      RegStore::AoR* remote_aor_data = NULL;
      std::string ignore;
      write_subscriptions_to_store(remote_store, aor, rdata, now, aor_data, NULL,
                                   &tdata_notify, &remote_aor_data, false, ignore,
                                   trail);
      delete remote_aor_data;
    }
  }
  else
  {
    // Failed to connect to the local store.  Reject the subscribe with a 500
    // response.

    // LCOV_EXCL_START - the can't fail to connect to the store we use for UT
    st_code = PJSIP_SC_INTERNAL_SERVER_ERROR;
    // LCOV_EXCL_STOP
  }

  // Build and send the reply.
  pjsip_tx_data* tdata;
  status = PJUtils::create_response(stack_data.endpt, rdata, st_code, NULL, &tdata);
  if (status != PJ_SUCCESS)
  {
    // LCOV_EXCL_START - don't know how to get PJSIP to fail to create a response
    LOG_ERROR("Error building SUBSCRIBE %d response %s", st_code,
              PJUtils::pj_status_to_string(status).c_str());

    SAS::Event event(trail, SASEvent::SUBSCRIBE_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "Error building SUBSCRIBE (" + std::to_string(st_code) + ") " + PJUtils::pj_status_to_string(status);
    event.add_var_param(error_msg);
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_INTERNAL_SERVER_ERROR,
                               NULL,
                               NULL,
                               NULL);
    delete acr;
    delete aor_data;
    return;
    // LCOV_EXCL_STOP
  }

  // Add expires headers
  pjsip_expires_hdr* expires_hdr = pjsip_expires_hdr_create(tdata->pool, expiry);
  pjsip_msg_add_hdr(tdata->msg, (pjsip_hdr*)expires_hdr);

  // Add the to tag to the response
  pjsip_to_hdr *to = (pjsip_to_hdr*) pjsip_msg_find_hdr(tdata->msg,
                                                        PJSIP_H_TO,
                                                        NULL);
  pj_strdup2(tdata->pool, &to->tag, subscription_id.c_str());

  // Pass the response to the ACR.
  acr->tx_response(tdata->msg);

  // Send the response.
  status = pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);

  // Send the ACR and delete it.
  acr->send_message();
  delete acr;

  // Send the Notify
  if (tdata_notify != NULL && notify_status == PJ_SUCCESS)
  {
    set_trail(tdata_notify, trail);
    status = PJUtils::send_request(tdata_notify, 0, NULL, NULL, true);

    if (status != PJ_SUCCESS)
    {
      // LCOV_EXCL_START
      SAS::Event event(trail, SASEvent::NOTIFICATION_FAILED, 0);
      std::string error_msg = "Failed to send NOTIFY - error code: " + std::to_string(status);
      event.add_var_param(error_msg);
      SAS::report_event(event);
      // LCOV_EXCL_STOP
    }
  }

  LOG_DEBUG("Report SAS end marker - trail (%llx)", trail);
  SAS::Marker end_marker(trail, MARKER_ID_END, 1u);
  SAS::report_marker(end_marker);

  delete aor_data;
}
void SubscriptionSproutletTsx::process_subscription_request(pjsip_msg* req)
{
  SAS::TrailId trail_id = trail();

  // Get the URI from the To header and check it is a SIP or SIPS URI.
  pjsip_uri* uri = (pjsip_uri*)pjsip_uri_get_uri(PJSIP_MSG_TO_HDR(req)->uri);

  if ((!PJSIP_URI_SCHEME_IS_SIP(uri)) && (!PJSIP_URI_SCHEME_IS_TEL(uri)))
  {
    // Reject a non-SIP/TEL URI with 404 Not Found (RFC3261 isn't clear
    // whether 404 is the right status code - it says 404 should be used if
    // the AoR isn't valid for the domain in the RequestURI).
    TRC_DEBUG("Rejecting subscribe request using invalid URI scheme");

    SAS::Event event(trail_id, SASEvent::SUBSCRIBE_FAILED_EARLY_URLSCHEME, 0);
    SAS::report_event(event);

    pjsip_msg* rsp = create_response(req, PJSIP_SC_NOT_FOUND);
    send_response(rsp);
    free_msg(req);
    return;
  }

  // Check if the contact header is present. If it isn't, we want to abort
  // processing before going any further, to avoid unnecessary work.
  pjsip_contact_hdr* contact_hdr =
             (pjsip_contact_hdr*)pjsip_msg_find_hdr(req, PJSIP_H_CONTACT, NULL);

  if (contact_hdr == NULL)
  {
    TRC_DEBUG("Unable to parse contact header from request. "
              "Aborting processing");
    pjsip_msg* rsp = create_response(req, PJSIP_SC_BAD_REQUEST);
    send_response(rsp);
    free_msg(req);
    return;
  }

  // Check if this is a subscription request from a binding that was emergency
  // registered.
  bool emergency_subscription = false;

  while (contact_hdr != NULL)
  {
    emergency_subscription = PJUtils::is_emergency_registration(contact_hdr);

    if (!emergency_subscription)
    {
      break;
    }

    contact_hdr = (pjsip_contact_hdr*) pjsip_msg_find_hdr(req,
                                                          PJSIP_H_CONTACT,
                                                          contact_hdr->next);
  }

  if (emergency_subscription)
  {
    // Reject a subscription with a Contact header containing a contact address
    // that's been registered for emergency service.
    TRC_DEBUG("Rejecting subscribe request from emergency registration");

    SAS::Event event(trail_id, SASEvent::SUBSCRIBE_FAILED_EARLY_EMERGENCY, 0);
    SAS::report_event(event);

    // Allow-Events is a mandatory header on 489 responses.
    pjsip_msg* rsp = create_response(req, PJSIP_SC_BAD_EVENT);
    pjsip_generic_string_hdr* allow_events_hdr =
                           pjsip_generic_string_hdr_create(get_pool(rsp),
                                                           &STR_ALLOW_EVENTS,
                                                           &STR_REG);
    pjsip_msg_add_hdr(rsp, (pjsip_hdr*)allow_events_hdr);
    send_response(rsp);
    free_msg(req);
    return;
  }

  // At this point we are going to attempt to process the subscribe.
  // Canonicalize the public ID from the URI in the To header.
  std::string public_id = PJUtils::public_id_from_uri(uri);

  TRC_DEBUG("Process SUBSCRIBE for public ID %s", public_id.c_str());

  // Get the call identifier from the headers.
  std::string cid = PJUtils::pj_str_to_string(&PJSIP_MSG_CID_HDR(req)->id);

  // Add SAS markers to the trail attached to the message so the trail
  // becomes searchable.
  SAS::Event event(trail_id, SASEvent::SUBSCRIBE_START, 0);
  event.add_var_param(public_id);
  SAS::report_event(event);

  // Create an ACR for the request. The node role is always considered
  // originating for SUBSCRIBE requests.
  ACR* acr = _subscription->_acr_factory->get_acr(trail_id,
                                                  ACR::CALLING_PARTY,
                                                  ACR::NODE_ROLE_ORIGINATING);
  acr->rx_request(req);

  // Work out the expiry time of the subscription.
  pjsip_expires_hdr* expires =
             (pjsip_expires_hdr*)pjsip_msg_find_hdr(req, PJSIP_H_EXPIRES, NULL);
  int expiry = (expires != NULL) ?
                expires->ivalue :
                SubscriptionSproutlet::DEFAULT_SUBSCRIPTION_EXPIRES;

  if (expiry > _subscription->_max_expires)
  {
    // Expiry is too long, set it to the maximum.
    TRC_DEBUG("Requested expiry (%d) is too long, setting to the maximum (%d)",
              expiry, _subscription->_max_expires);
    expiry = _subscription->_max_expires;
  }

  // Create a subscription object from the request that we can pass down to
  // be set into/updated in the different stores
  Subscription* new_subscription = create_subscription(req, expiry);
  HSSConnection::irs_info irs_info;
  HTTPCode rc;

  // Update or remove the subscription in the subscriber manager depending on
  // the expiry time.
  if (expiry != 0)
  {
    TRC_DEBUG("Adding/updating the subscription with ID %s",
              new_subscription->get_id().c_str());

    Subscriptions new_subscriptions;
    new_subscriptions.insert(std::make_pair(new_subscription->get_id(), new_subscription));
    rc = _subscription->_sm->update_subscriptions(
                   public_id,
                   new_subscriptions,
                   irs_info,
                   trail_id);
  }
  else
  {
    TRC_DEBUG("Removing the subscription with ID %s",
              new_subscription->get_id().c_str());

    rc = _subscription->_sm->remove_subscriptions(public_id,
                                                  {new_subscription->get_id()},
                                                  irs_info,
                                                  trail_id);
  }

  pjsip_status_code st_code =
                 determine_sm_sip_response(rc, irs_info._regstate, "SUBSCRIBE");

  pjsip_msg* rsp = create_response(req, st_code);

  if (st_code == PJSIP_SC_OK)
  {
    // The subscribe was successful. SAS log, and add headers to the response.
    TRC_DEBUG("The subscribe has been successful");

    SAS::Event sub_accepted(trail_id, SASEvent::SUBSCRIBE_ACCEPTED, 0);
    SAS::report_event(sub_accepted);

    // Add expires headers
    pjsip_expires_hdr* expires_hdr = pjsip_expires_hdr_create(get_pool(rsp),
                                                              expiry);
    pjsip_msg_add_hdr(rsp, (pjsip_hdr*)expires_hdr);

    // Add the contact header
    pjsip_contact_hdr* contact_hdr = pjsip_contact_hdr_create(get_pool(rsp));
    pjsip_name_addr* contact_uri = pjsip_name_addr_create(get_pool(rsp));
    contact_uri->uri = (pjsip_uri*)stack_data.scscf_uri;
    contact_hdr->uri = (pjsip_uri*)contact_uri;
    pjsip_msg_add_hdr(rsp, (pjsip_hdr*)contact_hdr);

    // Add a P-Charging-Function-Addresses header to the successful SUBSCRIBE
    // response containing the charging addresses returned by the HSS.
    PJUtils::add_pcfa_header(rsp,
                             get_pool(rsp),
                             irs_info._ccfs,
                             irs_info._ecfs,
                             false);

  }
  else if (st_code == PJSIP_SC_TEMPORARILY_UNAVAILABLE)
  {
    // A 480 response means that the subscriber wasn't registered. SAS log
    // this.
    TRC_DEBUG("The subscribe has failed as the subscriber (%s) wasn't registered",
              public_id.c_str());

    SAS::Event event(trail_id, SASEvent::SUBSCRIBE_FAILED_EARLY_NOT_REG, 0);
    SAS::report_event(event);
  }
  else
  {
    // The subscribe was unsuccessful.
    TRC_DEBUG("The subscribe failed with return code %d", st_code);

    SAS::Event sub_failed(trail_id, SASEvent::SUBSCRIBE_FAILED, 0);
    sub_failed.add_var_param(public_id);
    SAS::report_event(sub_failed);
  }

  // Add the to tag to the response (even if the subscribe was rejected).
  pjsip_to_hdr *to = (pjsip_to_hdr*) pjsip_msg_find_hdr(rsp,
                                                        PJSIP_H_TO,
                                                        NULL);
  pj_strdup2(get_pool(rsp), &to->tag, new_subscription->_to_tag.c_str());

  // Pass the response to the ACR.
  acr->tx_response(rsp);

  // Send the response.
  send_response(rsp);

  // Send the ACR and delete it.
  acr->send();
  delete acr; acr = NULL;

  delete new_subscription; new_subscription = NULL;
  free_msg(req);
}
示例#7
0
文件: registrar.cpp 项目: jmmL/sprout
void process_register_request(pjsip_rx_data* rdata)
{
  pj_status_t status;
  int st_code = PJSIP_SC_OK;
  SAS::TrailId trail = get_trail(rdata);

  // Get the URI from the To header and check it is a SIP or SIPS URI.
  pjsip_uri* uri = (pjsip_uri*)pjsip_uri_get_uri(rdata->msg_info.to->uri);

  if ((!PJSIP_URI_SCHEME_IS_SIP(uri)) && (!PJSIP_URI_SCHEME_IS_TEL(uri)))
  {
    // Reject a non-SIP/TEL URI with 404 Not Found (RFC3261 isn't clear
    // whether 404 is the right status code - it says 404 should be used if
    // the AoR isn't valid for the domain in the RequestURI).
    LOG_ERROR("Rejecting register request using invalid URI scheme");

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    // Can't log the public ID as the REGISTER has failed too early
    std::string public_id = "UNKNOWN";
    std::string error_msg = "Rejecting register request using invalid URI scheme";
    event.add_var_param(public_id);
    event.add_var_param(error_msg);
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_NOT_FOUND,
                               NULL,
                               NULL,
                               NULL);
    return;
  }

  // Allocate an ACR for this transaction and pass the request to it.
  ACR* acr = acr_factory->get_acr(get_trail(rdata),
                                  CALLING_PARTY,
                                  ACR::requested_node_role(rdata->msg_info.msg));
  acr->rx_request(rdata->msg_info.msg, rdata->pkt_info.timestamp);

  // Canonicalize the public ID from the URI in the To header.
  std::string public_id = PJUtils::public_id_from_uri(uri);

  LOG_DEBUG("Process REGISTER for public ID %s", public_id.c_str());

  // Get the call identifier and the cseq number from the respective headers.
  std::string cid = PJUtils::pj_str_to_string((const pj_str_t*)&rdata->msg_info.cid->id);;
  pjsip_msg *msg = rdata->msg_info.msg;

  // Add SAS markers to the trail attached to the message so the trail
  // becomes searchable.
  LOG_DEBUG("Report SAS start marker - trail (%llx)", trail);
  SAS::Marker start_marker(trail, MARKER_ID_START, 1u);
  SAS::report_marker(start_marker);

  PJUtils::report_sas_to_from_markers(trail, rdata->msg_info.msg);
  PJUtils::mark_sas_call_branch_ids(trail, NULL, rdata->msg_info.msg);

  // Query the HSS for the associated URIs.
  std::vector<std::string> uris;
  std::map<std::string, Ifcs> ifc_map;
  std::string private_id;
  std::string private_id_for_binding;
  bool success = get_private_id(rdata, private_id);
  if (!success)
  {
    // There are legitimate cases where we don't have a private ID
    // here (for example, on a re-registration where Bono has set the
    // Integrity-Protected header), so this is *not* a failure
    // condition.

    // We want the private ID here so that Homestead can use it to
    // subscribe for updates from the HSS - but on a re-registration,
    // Homestead should already have subscribed for updates during the
    // initial registration, so we can just make a request using our
    // public ID.
    private_id = "";

    // IMS compliant clients will always have the Auth header on all REGISTERs,
    // including reREGISTERS. Non-IMS clients won't, but their private ID
    // will always be the public ID with the sip: removed.
    private_id_for_binding = PJUtils::default_private_id_from_uri(uri);
  }
  else
  {
    private_id_for_binding = private_id;
  }

  SAS::Event event(trail, SASEvent::REGISTER_START, 0);
  event.add_var_param(public_id);
  event.add_var_param(private_id);
  SAS::report_event(event);

  std::string regstate;
  std::deque<std::string> ccfs;
  std::deque<std::string> ecfs;
  HTTPCode http_code = hss->update_registration_state(public_id,
                                                      private_id,
                                                      HSSConnection::REG,
                                                      regstate,
                                                      ifc_map,
                                                      uris,
                                                      ccfs,
                                                      ecfs,
                                                      trail);
  if ((http_code != HTTP_OK) || (regstate != HSSConnection::STATE_REGISTERED))
  {
    // We failed to register this subscriber at the HSS.  This indicates that the
    // HSS is unavailable, the public identity doesn't exist or the public
    // identity doesn't belong to the private identity.

    // The client shouldn't retry when the subscriber isn't present in the
    // HSS; reject with a 403 in this case.
    //
    // The client should retry on timeout but no other Clearwater nodes should
    // (as Sprout will already have retried on timeout). Reject with a 504
    // (503 is used for overload).
    st_code = PJSIP_SC_SERVER_TIMEOUT;

    if (http_code == HTTP_NOT_FOUND)
    {
      st_code = PJSIP_SC_FORBIDDEN;
    }

    LOG_ERROR("Rejecting register request with invalid public/private identity");

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "Rejecting register request with invalid public/private identity";
    event.add_var_param(error_msg);
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               st_code,
                               NULL,
                               NULL,
                               NULL);
    delete acr;
    return;
  }

  // Determine the AOR from the first entry in the uris array.
  std::string aor = uris.front();
  LOG_DEBUG("REGISTER for public ID %s uses AOR %s", public_id.c_str(), aor.c_str());

  // Get the system time in seconds for calculating absolute expiry times.
  int now = time(NULL);
  int expiry = 0;
  bool is_initial_registration;

  // Loop through each contact header. If every registration is an emergency
  // registration and its expiry is 0 then reject with a 501.
  // If there are valid registration updates to make then attempt to write to
  // store, which also stops emergency registrations from being deregistered.
  bool reject_with_501 = true;
  bool any_emergency_registrations = false;
  bool reject_with_400 = false;
  pjsip_contact_hdr* contact_hdr = (pjsip_contact_hdr*)
                 pjsip_msg_find_hdr(rdata->msg_info.msg, PJSIP_H_CONTACT, NULL);

  while (contact_hdr != NULL)
  {
    pjsip_expires_hdr* expires = (pjsip_expires_hdr*)pjsip_msg_find_hdr(rdata->msg_info.msg, PJSIP_H_EXPIRES, NULL);
    expiry = (contact_hdr->expires != -1) ? contact_hdr->expires :
             (expires != NULL) ? expires->ivalue :
              max_expires;

    if ((contact_hdr->star) && (expiry != 0))
    {
      // Wildcard contact, which can only be used if the expiry is 0
      LOG_ERROR("Attempted to deregister all bindings, but expiry value wasn't 0");
      reject_with_400 = true;
      break;
    }

    reject_with_501 = (reject_with_501 &&
                       PJUtils::is_emergency_registration(contact_hdr) && (expiry == 0));
    any_emergency_registrations = (any_emergency_registrations ||
                                  PJUtils::is_emergency_registration(contact_hdr));

    contact_hdr = (pjsip_contact_hdr*) pjsip_msg_find_hdr(rdata->msg_info.msg,
                                                          PJSIP_H_CONTACT,
                                                          contact_hdr->next);
  }

  if (reject_with_400)
  {
    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "Rejecting register request with invalid contact header";
    event.add_var_param(error_msg);
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_BAD_REQUEST,
                               NULL,
                               NULL,
                               NULL);
    delete acr;
    return;
  }

  if (reject_with_501)
  {
    LOG_ERROR("Rejecting register request as attempting to deregister an emergency registration");

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "Rejecting deregister request for emergency registrations";
    event.add_var_param(error_msg);
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_NOT_IMPLEMENTED,
                               NULL,
                               NULL,
                               NULL);
    delete acr;
    return;
  }


  // Write to the local store, checking the remote store if there is no entry locally.
  RegStore::AoR* aor_data = write_to_store(store, aor, rdata, now, expiry,
                                           is_initial_registration, NULL, remote_store,
                                           true, private_id_for_binding, trail);
  if (aor_data != NULL)
  {
    // Log the bindings.
    log_bindings(aor, aor_data);

    // If we have a remote store, try to store this there too.  We don't worry
    // about failures in this case.
    if (remote_store != NULL)
    {
      int tmp_expiry = 0;
      bool ignored;
      RegStore::AoR* remote_aor_data = write_to_store(remote_store, aor, rdata, now,
                                                      tmp_expiry, ignored, aor_data,
                                                      NULL, false, private_id_for_binding,
                                                      trail);
      delete remote_aor_data;
    }
  }
  else
  {
    // Failed to connect to the local store.  Reject the register with a 500
    // response.
    // LCOV_EXCL_START - the can't fail to connect to the store we use for UT
    st_code = PJSIP_SC_INTERNAL_SERVER_ERROR;

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "Unable to access Registration Store";
    event.add_var_param(error_msg);
    SAS::report_event(event);

    // LCOV_EXCL_STOP
  }

  // Build and send the reply.
  pjsip_tx_data* tdata;
  status = PJUtils::create_response(stack_data.endpt, rdata, st_code, NULL, &tdata);
  if (status != PJ_SUCCESS)
  {
    // LCOV_EXCL_START - don't know how to get PJSIP to fail to create a response
    std::string error_msg = "Error building REGISTER " + std::to_string(status) +
                            " response " + PJUtils::pj_status_to_string(status);

    LOG_ERROR(error_msg.c_str());

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    event.add_var_param(error_msg);
    SAS::report_event(event);

    PJUtils::respond_stateless(stack_data.endpt,
                               rdata,
                               PJSIP_SC_INTERNAL_SERVER_ERROR,
                               NULL,
                               NULL,
                               NULL);
    delete acr;
    delete aor_data;
    return;
    // LCOV_EXCL_STOP
  }

  if (st_code != PJSIP_SC_OK)
  {
    // LCOV_EXCL_START - we only reject REGISTER if something goes wrong, and
    // we aren't covering any of those paths so we can't hit this either
    status = pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "REGISTER failed with status code: " + std::to_string(st_code);
    event.add_var_param(error_msg);
    SAS::report_event(event);

    delete acr;
    delete aor_data;
    return;
    // LCOV_EXCL_STOP
  }

  // Add supported and require headers for RFC5626.
  pjsip_generic_string_hdr* gen_hdr;
  gen_hdr = pjsip_generic_string_hdr_create(tdata->pool,
                                            &STR_SUPPORTED,
                                            &STR_OUTBOUND);
  if (gen_hdr == NULL)
  {
    // LCOV_EXCL_START - can't see how this could ever happen
    LOG_ERROR("Failed to add RFC 5626 headers");

    SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
    event.add_var_param(public_id);
    std::string error_msg = "Failed to add RFC 5636 headers";
    event.add_var_param(error_msg);
    SAS::report_event(event);

    tdata->msg->line.status.code = PJSIP_SC_INTERNAL_SERVER_ERROR;
    pjsip_tx_data_invalidate_msg(tdata);
    status = pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);
    delete acr;
    delete aor_data;
    return;
    // LCOV_EXCL_STOP
  }
  pjsip_msg_add_hdr(tdata->msg, (pjsip_hdr*)gen_hdr);

  // Add contact headers for all active bindings.
  for (RegStore::AoR::Bindings::const_iterator i = aor_data->bindings().begin();
       i != aor_data->bindings().end();
       ++i)
  {
    RegStore::AoR::Binding* binding = i->second;
    if (binding->_expires > now)
    {
      // The binding hasn't expired.  Parse the Contact URI from the store,
      // making sure it is formatted as a name-address.
      pjsip_uri* uri = PJUtils::uri_from_string(binding->_uri, tdata->pool, PJ_TRUE);
      if (uri != NULL)
      {
        // Contact URI is well formed, so include this in the response.
        pjsip_contact_hdr* contact = pjsip_contact_hdr_create(tdata->pool);
        contact->star = 0;
        contact->uri = uri;
        contact->q1000 = binding->_priority;
        contact->expires = binding->_expires - now;
        pj_list_init(&contact->other_param);
        for (std::map<std::string, std::string>::iterator j = binding->_params.begin();
             j != binding->_params.end();
             ++j)
        {
          pjsip_param *new_param = PJ_POOL_ALLOC_T(tdata->pool, pjsip_param);
          pj_strdup2(tdata->pool, &new_param->name, j->first.c_str());
          pj_strdup2(tdata->pool, &new_param->value, j->second.c_str());
          pj_list_insert_before(&contact->other_param, new_param);
        }

        // The pub-gruu parameter on the Contact header is calculated
        // from the instance-id, to avoid unnecessary storage in
        // memcached.

        std::string gruu = binding->pub_gruu_quoted_string(tdata->pool);
        if (!gruu.empty())
        {
          pjsip_param *new_param = PJ_POOL_ALLOC_T(tdata->pool, pjsip_param);
          pj_strdup2(tdata->pool, &new_param->name, "pub-gruu");
          pj_strdup2(tdata->pool, &new_param->value, gruu.c_str());
          pj_list_insert_before(&contact->other_param, new_param);
        }

        pjsip_msg_add_hdr(tdata->msg, (pjsip_hdr*)contact);
      }
      else
      {
        // Contact URI is malformed.  Log an error, but otherwise don't try and
        // fix it.
        // LCOV_EXCL_START hard to hit - needs bad data in the store
        LOG_WARNING("Badly formed contact URI %s for address of record %s",
                    binding->_uri.c_str(), aor.c_str());

        SAS::Event event(trail, SASEvent::REGISTER_FAILED, 0);
        event.add_var_param(public_id);
        std::string error_msg = "Badly formed contact URI - " + binding->_uri;
        event.add_var_param(error_msg);
        SAS::report_event(event);
        // LCOV_EXCL_STOP
      }
    }
  }

  // Deal with path header related fields in the response.
  pjsip_routing_hdr* path_hdr = (pjsip_routing_hdr*)
                              pjsip_msg_find_hdr_by_name(msg, &STR_PATH, NULL);
  if ((path_hdr != NULL) &&
      (!aor_data->bindings().empty()))
  {
    // We have bindings with path headers so we must require outbound.
    pjsip_require_hdr* require_hdr = pjsip_require_hdr_create(tdata->pool);
    require_hdr->count = 1;
    require_hdr->values[0] = STR_OUTBOUND;
    pjsip_msg_add_hdr(tdata->msg, (pjsip_hdr*)require_hdr);
  }

  // Echo back any Path headers as per RFC 3327, section 5.3.  We take these
  // from the request as they may not exist in the bindings any more if the
  // bindings have expired.
  while (path_hdr)
  {
    pjsip_msg_add_hdr(tdata->msg,
                      (pjsip_hdr*)pjsip_hdr_clone(tdata->pool, path_hdr));
    path_hdr = (pjsip_routing_hdr*)
                    pjsip_msg_find_hdr_by_name(msg, &STR_PATH, path_hdr->next);
  }

  // Add the Service-Route header.  It isn't safe to do this with the
  // pre-built header from the global pool because the chaining data
  // structures in the header may get overwritten, but it is safe to do a
  // shallow clone.
  pjsip_hdr* clone = (pjsip_hdr*)
                          pjsip_hdr_shallow_clone(tdata->pool, service_route);
  pjsip_msg_insert_first_hdr(tdata->msg, clone);

  // Add P-Associated-URI headers for all of the associated URIs.
  for (std::vector<std::string>::iterator it = uris.begin();
       it != uris.end();
       it++)
  {
    pjsip_routing_hdr* pau =
                        identity_hdr_create(tdata->pool, STR_P_ASSOCIATED_URI);
    pau->name_addr.uri = PJUtils::uri_from_string(*it, tdata->pool);
    pjsip_msg_add_hdr(tdata->msg, (pjsip_hdr*)pau);
  }

  // Add a PCFA header.
  PJUtils::add_pcfa_header(tdata->msg, tdata->pool, ccfs, ecfs, true);

  // Pass the response to the ACR.
  acr->tx_response(tdata->msg);

  // Send the response, but prevent the transmitted data from being freed, as we may need to inform the
  // ASes of the 200 OK response we sent.
  pjsip_tx_data_add_ref(tdata);
  status = pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);

  // Send the ACR and delete it.
  acr->send_message();
  delete acr;

  // TODO in sto397: we should do third-party registration once per
  // service profile (i.e. once per iFC, using an arbitrary public
  // ID). hss->get_subscription_data should be enhanced to provide an
  // appropriate data structure (representing the ServiceProfile
  // nodes) and we should loop through that. Don't send any register that
  // contained emergency registrations to the application servers.

  if (!any_emergency_registrations)
  {
    RegistrationUtils::register_with_application_servers(ifc_map[public_id],
                                                         store,
                                                         rdata,
                                                         tdata,
                                                         expiry,
                                                         is_initial_registration,
                                                         public_id,
                                                         trail);
  }

  // Now we can free the tdata.
  pjsip_tx_data_dec_ref(tdata);

  LOG_DEBUG("Report SAS end marker - trail (%llx)", trail);
  SAS::Marker end_marker(trail, MARKER_ID_END, 1u);
  SAS::report_marker(end_marker);
  delete aor_data;
}
示例#8
0
pj_bool_t authenticate_rx_request(pjsip_rx_data* rdata)
{
  pj_status_t status;
  std::string resync;

  SAS::TrailId trail = get_trail(rdata);

  if (rdata->tp_info.transport->local_name.port != stack_data.scscf_port)
  {
    // Request not received on S-CSCF port, so don't authenticate it.
    std::string error_msg = "Request wasn't received on S-CSCF port";
    log_sas_auth_not_needed_event(trail, error_msg);

    return PJ_FALSE;
  }

  if (rdata->msg_info.msg->line.req.method.id != PJSIP_REGISTER_METHOD)
  {
    // Non-REGISTER request, so don't do authentication as it must have come
    // from an authenticated or trusted source.
    std::string error_msg = "Request wasn't a REGISTER";
    log_sas_auth_not_needed_event(trail, error_msg);

    return PJ_FALSE;
  }

  // Authentication isn't required for emergency registrations. An emergency
  // registration is one where each Contact header contains 'sos' as the SIP
  // URI parameter.
  bool emergency_reg = true;

  pjsip_contact_hdr* contact_hdr = (pjsip_contact_hdr*)
                 pjsip_msg_find_hdr(rdata->msg_info.msg, PJSIP_H_CONTACT, NULL);

  while ((contact_hdr != NULL) && (emergency_reg))
  {
    emergency_reg = PJUtils::is_emergency_registration(contact_hdr);
    contact_hdr = (pjsip_contact_hdr*) pjsip_msg_find_hdr(rdata->msg_info.msg,
                                                          PJSIP_H_CONTACT,
                                                          contact_hdr->next);
  }

  if (emergency_reg)
  {
    std::string error_msg = "Request is an emergency REGISTER";
    log_sas_auth_not_needed_event(trail, error_msg);

    return PJ_FALSE;
  }

  // Check to see if the request has already been integrity protected?
  pjsip_authorization_hdr* auth_hdr = (pjsip_authorization_hdr*)
           pjsip_msg_find_hdr(rdata->msg_info.msg, PJSIP_H_AUTHORIZATION, NULL);

  if ((auth_hdr != NULL) &&
      (auth_hdr->credential.digest.response.slen == 0))
  {
    // There is an authorization header with no challenge response, so check
    // for the integrity-protected indication.
    LOG_DEBUG("Authorization header in request with no challenge response");
    pjsip_param* integrity =
           pjsip_param_find(&auth_hdr->credential.digest.other_param,
                            &STR_INTEGRITY_PROTECTED);

    // Request has an integrity protected indication, so let it through if
    // it is set to a "yes" value.
    if ((integrity != NULL) &&
        ((pj_stricmp(&integrity->value, &STR_YES) == 0) ||
         (pj_stricmp(&integrity->value, &STR_TLS_YES) == 0) ||
         (pj_stricmp(&integrity->value, &STR_IP_ASSOC_YES) == 0)))
    {
      // Request is already integrity protected, so let it through.
      LOG_INFO("Request integrity protected by edge proxy");

      std::string error_msg = "Request integrity protected by edge proxy";
      log_sas_auth_not_needed_event(trail, error_msg);

      return PJ_FALSE;
    }
  }

  int sc = PJSIP_SC_UNAUTHORIZED;
  status = PJSIP_EAUTHNOAUTH;

  if ((auth_hdr != NULL) &&
      (auth_hdr->credential.digest.response.slen != 0))
  {
    std::string impi = PJUtils::pj_str_to_string(&auth_hdr->credential.digest.username);
    std::string nonce = PJUtils::pj_str_to_string(&auth_hdr->credential.digest.nonce);
    uint64_t cas = 0;

    Json::Value* av = av_store->get_av(impi, nonce, cas, trail);

    // Request contains a response to a previous challenge, so pass it to
    // the authentication module to verify.
    LOG_DEBUG("Verify authentication information in request");
    status = pjsip_auth_srv_verify2(&auth_srv, rdata, &sc, (void*)av);

    if (status == PJ_SUCCESS)
    {
      // The authentication information in the request was verified.
      LOG_DEBUG("Request authenticated successfully");

      SAS::Event event(trail, SASEvent::AUTHENTICATION_SUCCESS, 0);
      SAS::report_event(event);

      (*av)["tombstone"] = Json::Value("true");
      bool rc = av_store->set_av(impi, nonce, av, cas, trail);


      if (!rc) {
        // LCOV_EXCL_START
        LOG_ERROR("Tried to tombstone AV for %s/%s after processing an authentication, but failed",
                  impi.c_str(),
                  nonce.c_str());
        // LCOV_EXCL_STOP
      }

      // If doing AKA authentication, check for an AUTS parameter.  We only
      // check this if the request authenticated as actioning it otherwise
      // is a potential denial of service attack.
      if (!pj_strcmp(&auth_hdr->credential.digest.algorithm, &STR_AKAV1_MD5))
      {
        LOG_DEBUG("AKA authentication so check for client resync request");
        pjsip_param* p = pjsip_param_find(&auth_hdr->credential.digest.other_param,
                                          &STR_AUTS);

        if (p != NULL)
        {
          // Found AUTS parameter, so UE is requesting a resync.  We need to
          // redo the authentication, passing an auts parameter to the HSS
          // comprising the first 16 octets of the nonce (RAND) and the 14
          // octets of the auts parameter.  (See TS 33.203 and table 6.3.3 of
          // TS 29.228 for details.)
          LOG_DEBUG("AKA SQN resync request from UE");
          std::string auts = PJUtils::pj_str_to_string(&p->value);
          std::string nonce = PJUtils::pj_str_to_string(&auth_hdr->credential.digest.nonce);
          if ((auts.length() != 14) ||
              (nonce.length() != 32))
          {
            // AUTS and/or nonce are malformed, so reject the request.
            LOG_WARNING("Invalid auts/nonce on resync request from private identity %.*s",
                        auth_hdr->credential.digest.username.slen,
                        auth_hdr->credential.digest.username.ptr);
            status = PJSIP_EAUTHINAKACRED;
            sc = PJSIP_SC_FORBIDDEN;
          }
          else
          {
            // auts and nonce are as expected, so create the resync string
            // that needs to be passed to the HSS, and act as if no
            // authentication information was received.
            resync = nonce.substr(0,16) + auts;
            status = PJSIP_EAUTHNOAUTH;
            sc = PJSIP_SC_UNAUTHORIZED;
          }
        }
      }


      if (status == PJ_SUCCESS)
      {
        // Request authentication completed, so let the message through to
        // other modules.
        delete av;
        return PJ_FALSE;
      }
    }
    delete av;
  }


  // The message either has insufficient authentication information, or
  // has failed authentication.  In either case, the message will be
  // absorbed and responded to by the authentication module, so we need to
  // add SAS markers so the trail will become searchable.
  SAS::Marker start_marker(trail, MARKER_ID_START, 1u);
  SAS::report_marker(start_marker);

  PJUtils::report_sas_to_from_markers(trail, rdata->msg_info.msg);
  PJUtils::mark_sas_call_branch_ids(trail, NULL, rdata->msg_info.msg);

  // Add a SAS end marker
  SAS::Marker end_marker(trail, MARKER_ID_END, 1u);
  SAS::report_marker(end_marker);

  // Create an ACR for the message and pass the request to it.
  ACR* acr = acr_factory->get_acr(trail,
                                  CALLING_PARTY,
                                  ACR::requested_node_role(rdata->msg_info.msg));
  acr->rx_request(rdata->msg_info.msg, rdata->pkt_info.timestamp);

  pjsip_tx_data* tdata;

  if ((status == PJSIP_EAUTHNOAUTH) ||
      (status == PJSIP_EAUTHACCNOTFOUND))
  {
    // No authorization information in request, or no authentication vector
    // found in the store (so request is likely stale), so must issue
    // challenge.
    LOG_DEBUG("No authentication information in request or stale nonce, so reject with challenge");

    sc = PJSIP_SC_UNAUTHORIZED;
    status = PJUtils::create_response(stack_data.endpt, rdata, sc, NULL, &tdata);

    if (status != PJ_SUCCESS)
    {
      // Failed to create a response.  This really shouldn't happen, but there
      // is nothing else we can do.
      // LCOV_EXCL_START
      delete acr;
      return PJ_TRUE;
      // LCOV_EXCL_STOP
    }

    create_challenge(auth_hdr, resync, rdata, tdata);
  }
  else
  {
    // Authentication failed.
    std::string error_msg = PJUtils::pj_status_to_string(status);

    LOG_ERROR("Authentication failed, %s", error_msg.c_str());

    SAS::Event event(trail, SASEvent::AUTHENTICATION_FAILED, 0);
    event.add_var_param(error_msg);
    SAS::report_event(event);

    if (sc != PJSIP_SC_UNAUTHORIZED)
    {
      // Notify Homestead and the HSS that this authentication attempt
      // has definitively failed.
      std::string impi;
      std::string impu;

      PJUtils::get_impi_and_impu(rdata, impi, impu);

      hss->update_registration_state(impu, impi, HSSConnection::AUTH_FAIL, 0);
    }

    if (analytics != NULL)
    {
      analytics->auth_failure(PJUtils::pj_str_to_string(&auth_hdr->credential.digest.username),
                              PJUtils::public_id_from_uri((pjsip_uri*)pjsip_uri_get_uri(PJSIP_MSG_TO_HDR(rdata->msg_info.msg)->uri)));
    }

    // @TODO - need more diagnostics here so we can identify and flag
    // attacks.

    status = PJUtils::create_response(stack_data.endpt, rdata, sc, NULL, &tdata);
    if (status != PJ_SUCCESS)
    {
      // Failed to create a response.  This really shouldn't happen, but there
      // is nothing else we can do.
      // LCOV_EXCL_START
      delete acr;
      return PJ_TRUE;
      // LCOV_EXCL_STOP
    }
  }

  acr->tx_response(tdata->msg);

  status = pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);

  // Send the ACR.
  acr->send_message();
  delete acr;

  return PJ_TRUE;
}
示例#9
0
pj_bool_t authenticate_rx_request(pjsip_rx_data* rdata)
{
  TRC_DEBUG("Authentication module invoked");
  pj_status_t status;
  bool is_register = (rdata->msg_info.msg->line.req.method.id == PJSIP_REGISTER_METHOD);
  SNMP::SuccessFailCountTable* auth_stats_table = NULL;
  std::string resync;

  SAS::TrailId trail = get_trail(rdata);

  if (!needs_authentication(rdata, trail))
  {
    TRC_DEBUG("Request does not need authentication");
    return PJ_FALSE;
  }

  TRC_DEBUG("Request needs authentication");
  rapidjson::Document* av = NULL;

  const int unauth_sc = is_register ? PJSIP_SC_UNAUTHORIZED : PJSIP_SC_PROXY_AUTHENTICATION_REQUIRED;
  int sc = unauth_sc;
  status = PJSIP_EAUTHNOAUTH;

  pjsip_digest_credential* credentials = get_credentials(rdata);

  if ((credentials != NULL) &&
      (credentials->response.slen != 0))
  {
    std::string impi = PJUtils::pj_str_to_string(&credentials->username);
    std::string nonce = PJUtils::pj_str_to_string(&credentials->nonce);
    uint64_t cas = 0;
    av = av_store->get_av(impi, nonce, cas, trail);

    if (!is_register)
    {
      // Challenged non-register requests must be SIP digest, so only one table
      // needed for this case.
      auth_stats_table = auth_stats_tables->non_register_auth_tbl;
    }
    else
    {
      if (!pj_strcmp2(&credentials->algorithm, "MD5"))
      {
        auth_stats_table = auth_stats_tables->sip_digest_auth_tbl;
      }
      else if (!pj_strcmp2(&credentials->algorithm, "AKAv1-MD5"))
      {
        auth_stats_table = auth_stats_tables->ims_aka_auth_tbl;
      }
      else
      {
        // Authorization header did not specify an algorithm, so check the av for
        // this information instead.
        if ((av != NULL) && (av->HasMember("aka")))
        {
          auth_stats_table = auth_stats_tables->ims_aka_auth_tbl;
        }
        else
        {
          // Use the digest table if the AV specified digest, or as a fallback if there was no AV
          auth_stats_table = auth_stats_tables->sip_digest_auth_tbl;
        }
      }
    }

    if (auth_stats_table != NULL)
    {
      auth_stats_table->increment_attempts();
    }

    // Request contains a response to a previous challenge, so pass it to
    // the authentication module to verify.
    TRC_DEBUG("Verify authentication information in request");
    status = pjsip_auth_srv_verify2((is_register ? &auth_srv : &auth_srv_proxy), rdata, &sc, (void*)av);

    if (status == PJ_SUCCESS)
    {
      // The authentication information in the request was verified.
      TRC_DEBUG("Request authenticated successfully");

      SAS::Event event(trail, SASEvent::AUTHENTICATION_SUCCESS, 0);
      SAS::report_event(event);

      if (auth_stats_table != NULL)
      {
        auth_stats_table->increment_successes();
      }

      // Write a tombstone flag back to the AV store, handling contention.
      // We don't actually expect anything else to be writing to this row in
      // the AV store, but there is a window condition where we failed to read
      // from the primary, successfully read from the backup (with a different
      // CAS value) and then try to write back to the primary, which fails due
      // to "contention".
      Store::Status store_status;
      do
      {
        // Set the tomestone flag in the JSON authentication vector.
        rapidjson::Value tombstone_value;
        tombstone_value.SetBool(true);
        av->AddMember("tombstone", tombstone_value, (*av).GetAllocator());

        // Store it.  If this fails due to contention, read the updated JSON.
        store_status = av_store->set_av(impi, nonce, av, cas, trail);
        if (store_status == Store::DATA_CONTENTION)
        {
          // LCOV_EXCL_START - No support for contention in UT
          TRC_DEBUG("Data contention writing tombstone - retry");
          delete av;
          av = av_store->get_av(impi, nonce, cas, trail);
          if (av == NULL)
          {
            store_status = Store::ERROR;
          }
          // LCOV_EXCL_STOP
        }
      }
      while (store_status == Store::DATA_CONTENTION);

      if (store_status != Store::OK)
      {
        // LCOV_EXCL_START
        TRC_ERROR("Tried to tombstone AV for %s/%s after processing an authentication, but failed",
                  impi.c_str(),
                  nonce.c_str());
        // LCOV_EXCL_STOP
      }

      // If doing AKA authentication, check for an AUTS parameter.  We only
      // check this if the request authenticated as actioning it otherwise
      // is a potential denial of service attack.
      if (!pj_strcmp(&credentials->algorithm, &STR_AKAV1_MD5))
      {
        TRC_DEBUG("AKA authentication so check for client resync request");
        pjsip_param* p = pjsip_param_find(&credentials->other_param,
                                          &STR_AUTS);

        if (p != NULL)
        {
          // Found AUTS parameter, so UE is requesting a resync.  We need to
          // redo the authentication, passing an auts parameter to the HSS
          // comprising the first 16 octets of the nonce (RAND) and the 14
          // octets of the auts parameter.  (See TS 33.203 and table 6.3.3 of
          // TS 29.228 for details.)
          TRC_DEBUG("AKA SQN resync request from UE");
          std::string auts = PJUtils::pj_str_to_string(&p->value);
          std::string nonce = PJUtils::pj_str_to_string(&credentials->nonce);

          // Convert the auts and nonce to binary for manipulation
          nonce = base64_decode(nonce);
          auts  = base64_decode(auts);

          if ((auts.length() != 14) ||
              (nonce.length() != 32))
          {
            // AUTS and/or nonce are malformed, so reject the request.
            TRC_WARNING("Invalid auts/nonce on resync request from private identity %.*s",
                        credentials->username.slen,
                        credentials->username.ptr);
            status = PJSIP_EAUTHINAKACRED;
            sc = PJSIP_SC_FORBIDDEN;
          }
          else
          {
            // auts and nonce are as expected, so create the resync string
            // that needs to be passed to the HSS, and act as if no
            // authentication information was received. The resync string
            // should be RAND || AUTS.
            resync = base64_encode(nonce.substr(0, 16) + auts);
            status = PJSIP_EAUTHNOAUTH;
            sc = unauth_sc;
          }
        }
      }

      if (status == PJ_SUCCESS)
      {
        // Request authentication completed, so let the message through to other
        // modules. Remove any Proxy-Authorization headers first so they are not
        // passed to downstream devices. We can't do this for Authorization
        // headers, as these may need to be included in 3rd party REGISTER
        // messages.
        while (pjsip_msg_find_remove_hdr(rdata->msg_info.msg,
                                         PJSIP_H_PROXY_AUTHORIZATION,
                                         NULL) != NULL);
        delete av;
        return PJ_FALSE;
      }
    }
  }


  // The message either has insufficient authentication information, or
  // has failed authentication.  In either case, the message will be
  // absorbed and responded to by the authentication module, so we need to
  // add SAS markers so the trail will become searchable.
  SAS::Marker start_marker(trail, MARKER_ID_START, 1u);
  SAS::report_marker(start_marker);

  // Add a SAS end marker
  SAS::Marker end_marker(trail, MARKER_ID_END, 1u);
  SAS::report_marker(end_marker);

  // Create an ACR for the message and pass the request to it.  Role is always
  // considered originating for a REGISTER request.
  ACR* acr = acr_factory->get_acr(trail,
                                  CALLING_PARTY,
                                  NODE_ROLE_ORIGINATING);
  acr->rx_request(rdata->msg_info.msg, rdata->pkt_info.timestamp);

  pjsip_tx_data* tdata;

  if ((status == PJSIP_EAUTHNOAUTH) ||
      (status == PJSIP_EAUTHACCNOTFOUND))
  {
    // No authorization information in request, or no authentication vector
    // found in the store (so request is likely stale), so must issue
    // challenge.
    TRC_DEBUG("No authentication information in request or stale nonce, so reject with challenge");
    pj_bool_t stale = (status == PJSIP_EAUTHACCNOTFOUND);

    sc = unauth_sc;

    if (stale && auth_stats_table != NULL)
    {
      auth_stats_table->increment_failures();
    }

    status = PJUtils::create_response(stack_data.endpt, rdata, sc, NULL, &tdata);

    if (status != PJ_SUCCESS)
    {
      // Failed to create a response.  This really shouldn't happen, but there
      // is nothing else we can do.
      // LCOV_EXCL_START
      delete acr;
      return PJ_TRUE;
      // LCOV_EXCL_STOP
    }

    create_challenge(credentials, stale, resync, rdata, tdata);
  }
  else
  {
    // Authentication failed.
    std::string error_msg = PJUtils::pj_status_to_string(status);

    TRC_ERROR("Authentication failed, %s", error_msg.c_str());
    if (auth_stats_table != NULL)
    {
      auth_stats_table->increment_failures();
    }
    SAS::Event event(trail, SASEvent::AUTHENTICATION_FAILED, 0);
    event.add_var_param(error_msg);
    SAS::report_event(event);

    if (sc != unauth_sc)
    {
      // Notify Homestead and the HSS that this authentication attempt
      // has definitively failed.
      std::string impi;
      std::string impu;

      PJUtils::get_impi_and_impu(rdata, impi, impu);

      hss->update_registration_state(impu, impi, HSSConnection::AUTH_FAIL, trail);
    }

    if (analytics != NULL)
    {
      analytics->auth_failure(PJUtils::pj_str_to_string(&credentials->username),
      PJUtils::public_id_from_uri((pjsip_uri*)pjsip_uri_get_uri(PJSIP_MSG_TO_HDR(rdata->msg_info.msg)->uri)));
    }

    status = PJUtils::create_response(stack_data.endpt, rdata, sc, NULL, &tdata);
    if (status != PJ_SUCCESS)
    {
      // Failed to create a response.  This really shouldn't happen, but there
      // is nothing else we can do.
      // LCOV_EXCL_START
      delete acr;
      return PJ_TRUE;
      // LCOV_EXCL_STOP
    }
  }

  acr->tx_response(tdata->msg);

  // Issue the challenge response transaction-statefully. This is so that:
  //  * if we challenge an INVITE, the UE can ACK the 407
  //  * if a challenged request gets retransmitted, we don't repeat the work
  pjsip_transaction* tsx = NULL;
  status = pjsip_tsx_create_uas2(NULL, rdata, NULL, &tsx);
  set_trail(tsx, trail);
  if (status != PJ_SUCCESS)
  {
    // LCOV_EXCL_START - defensive code not hit in UT
    TRC_WARNING("Couldn't create PJSIP transaction for authentication response: %d"
                " (sending statelessly instead)", status);
    // Send the response statelessly in this case - it's better than nothing
    pjsip_endpt_send_response2(stack_data.endpt, rdata, tdata, NULL, NULL);
    // LCOV_EXCL_STOP
  }
  else
  {
    // Let the tsx know about the original message
    pjsip_tsx_recv_msg(tsx, rdata);
    // Send our response in this transaction
    pjsip_tsx_send_msg(tsx, tdata);
  }

  // Send the ACR.
  acr->send();
  delete acr;
  delete av;
  return PJ_TRUE;
}