コード例 #1
0
/* Move priv file to the alien_ni stack.
 * Should be called with the locked priv stack and socket;
 * the function returns with this stack being unlocked.
 * If rc=0, it returns with alien_ni stack locked;
 * otherwise, both stacks are unlocked.
 * Socket is always unlocked on return. */
int efab_file_move_to_alien_stack(ci_private_t *priv, ci_netif *alien_ni)
{
  tcp_helper_resource_t *old_thr = priv->thr;
  tcp_helper_resource_t *new_thr = netif2tcp_helper_resource(alien_ni);
  ci_sock_cmn *old_s = SP_TO_SOCK(&old_thr->netif, priv->sock_id);
  ci_sock_cmn *new_s;
  ci_sock_cmn *mid_s;
  tcp_helper_endpoint_t *old_ep, *new_ep;
  int rc, i;
  int pollwait_register = 0;
#if CI_CFG_FD_CACHING
  oo_p sp;
#endif

  OO_DEBUG_TCPH(ci_log("%s: move %d:%d to %d", __func__,
                       old_thr->id, priv->sock_id, new_thr->id));
  /* Poll the old stack - deliver all data to our socket */
  ci_netif_poll(&old_thr->netif);

  /* Endpoints in epoll list should not be moved, because waitq is already
   * in the epoll internal structures (bug 41152). */
  if( !list_empty(&priv->_filp->f_ep_links) ) {
    rc = -EBUSY;
    goto fail1;
  }

  if( !efab_file_move_supported(&old_thr->netif, old_s) ) {
    rc = -EINVAL;
    goto fail1;
  }

  /* Lock the second stack */
  i = 0;
  while( ! ci_netif_trylock(alien_ni) ) {
    ci_netif_unlock(&old_thr->netif);
    if( i++ >= 1000 ) {
      rc = -EBUSY;
      goto fail1_ni_unlocked;
    }
    rc = ci_netif_lock(&old_thr->netif);
    if( rc != 0 )
      goto fail1_ni_unlocked;
  }

  /* Allocate a new socket in the alien_ni stack */
  rc = -ENOMEM;
  if( old_s->b.state == CI_TCP_STATE_UDP ) {
    ci_udp_state *new_us = ci_udp_get_state_buf(alien_ni);
    if( new_us == NULL )
      goto fail2;
    new_s = &new_us->s;
  }
  else {
    ci_tcp_state *new_ts = ci_tcp_get_state_buf(alien_ni);
    if( new_ts == NULL )
      goto fail2;
    new_s = &new_ts->s;
  }

  /* Allocate an intermediate "socket" outside of everything */
  mid_s = ci_alloc(CI_MAX(sizeof(ci_tcp_state), sizeof(ci_udp_state)));
  if( mid_s == NULL )
    goto fail3;

  OO_DEBUG_TCPH(ci_log("%s: move %d:%d to %d:%d", __func__,
                       old_thr->id, priv->sock_id,
                       new_thr->id, new_s->b.bufid));

  /* Copy TCP/UDP state */
  memcpy(mid_s, old_s, CI_MAX(sizeof(ci_tcp_state), sizeof(ci_udp_state)));

  /* do not copy old_s->b.bufid
   * and other fields in stack adress space */
  mid_s->b.sb_aflags |= CI_SB_AFLAG_ORPHAN;
  mid_s->b.bufid = new_s->b.bufid;
  mid_s->b.post_poll_link = new_s->b.post_poll_link;
  mid_s->b.ready_link = new_s->b.ready_link;
  mid_s->reap_link = new_s->reap_link;

  if( old_s->b.state & CI_TCP_STATE_TCP ) {
    ci_tcp_state *new_ts = SOCK_TO_TCP(new_s);
    ci_tcp_state *mid_ts = SOCK_TO_TCP(mid_s);

    mid_ts->timeout_q_link = new_ts->timeout_q_link;
    mid_ts->tx_ready_link = new_ts->tx_ready_link;
    mid_ts->rto_tid = new_ts->rto_tid;
    mid_ts->delack_tid = new_ts->delack_tid;
    mid_ts->zwin_tid = new_ts->zwin_tid;
    mid_ts->kalive_tid = new_ts->kalive_tid;
    mid_ts->cork_tid = new_ts->cork_tid;
    ci_ip_queue_init(&mid_ts->recv1);
    ci_ip_queue_init(&mid_ts->recv2);
    ci_ip_queue_init(&mid_ts->send);
    ci_ip_queue_init(&mid_ts->retrans);
    mid_ts->send_prequeue = OO_PP_ID_NULL;
    new_ts->retrans_ptr = OO_PP_NULL;
    mid_ts->tmpl_head = OO_PP_NULL;
    oo_atomic_set(&mid_ts->send_prequeue_in, 0);

    *new_ts = *mid_ts;
    ci_pmtu_state_init(alien_ni, &new_ts->s, &new_ts->pmtus,
                       CI_IP_TIMER_PMTU_DISCOVER);
#if CI_CFG_FD_CACHING
    sp = TS_OFF(alien_ni, new_ts);
    OO_P_ADD(sp, CI_MEMBER_OFFSET(ci_tcp_state, epcache_link));
    ci_ni_dllist_link_init(alien_ni, &new_ts->epcache_link, sp, "epch");
    ci_ni_dllist_self_link(alien_ni, &new_ts->epcache_link);
    sp = TS_OFF(alien_ni, new_ts);
    OO_P_ADD(sp, CI_MEMBER_OFFSET(ci_tcp_state, epcache_fd_link));
    ci_ni_dllist_link_init(alien_ni, &new_ts->epcache_fd_link, sp, "ecfd");
    ci_ni_dllist_self_link(alien_ni, &new_ts->epcache_fd_link);
#endif
   
    /* free temporary mid_ts storage */
    CI_FREE_OBJ(mid_ts);
  }
  else {
    ci_udp_state *mid_us = SOCK_TO_UDP(mid_s);

    *SOCK_TO_UDP(new_s) = *mid_us;
    CI_FREE_OBJ(mid_us);
  }

  /* Move the filter */
  old_ep = ci_trs_ep_get(old_thr, priv->sock_id);
  new_ep = ci_trs_ep_get(new_thr, new_s->b.bufid);
  rc = tcp_helper_endpoint_move_filters_pre(old_ep, new_ep);
  if( rc != 0 ) {
    rc = -EINVAL;
    goto fail3;
  }

  /* Allocate a new file for the new endpoint */
  rc = onload_alloc_file(new_thr, new_s->b.bufid, priv->_filp->f_flags,
                         priv->fd_type, &old_ep->alien_ref);
  if( rc != 0 )
    goto fail4;
  ci_assert(old_ep->alien_ref);

  /* Copy F_SETOWN_EX, F_SETSIG to the new file */
#ifdef F_SETOWN_EX
  rcu_read_lock();
  __f_setown(old_ep->alien_ref->_filp, priv->_filp->f_owner.pid,
             priv->_filp->f_owner.pid_type, 1);
  rcu_read_unlock();
#endif
  old_ep->alien_ref->_filp->f_owner.signum = priv->_filp->f_owner.signum;
  old_ep->alien_ref->_filp->f_flags |= priv->_filp->f_flags & O_NONBLOCK;

  /* Move os_socket from one ep to another */
  if( tcp_helper_endpoint_set_aflags(new_ep, OO_THR_EP_AFLAG_ATTACHED) &
      OO_THR_EP_AFLAG_ATTACHED ) {
    fput(old_ep->alien_ref->_filp);
    rc = -EBUSY;
    goto fail2; /* state & filters are cleared by fput() */
  }

  /********* Point of no return  **********/
  ci_wmb();
  priv->fd_type = CI_PRIV_TYPE_ALIEN_EP;
  priv->_filp->f_op = &linux_tcp_helper_fops_alien;
  ci_wmb();
  oo_file_moved(priv);

  /* Read all already-arrived packets after the filters move but before
   * copying of the receive queue. */
  ci_netif_poll(&old_thr->netif);
  tcp_helper_endpoint_move_filters_post(old_ep, new_ep);
  ci_assert( efab_file_move_supported(&old_thr->netif, old_s));

  /* There's a gap between un-registering the old ep, and registering the
   * the new.  However, the notifications shouldn't be in use for sockets
   * that are in a state that can be moved, so this shouldn't be a problem.
   */
  if( old_ep->os_sock_pt.whead ) {
    pollwait_register = 1;
    efab_tcp_helper_os_pollwait_unregister(old_ep);
  }
  ci_assert_equal(new_ep->os_socket, NULL);
  new_ep->os_socket = oo_file_ref_xchg(&old_ep->os_socket, NULL);
  ci_assert_equal(old_ep->os_socket, NULL);
  if( pollwait_register )
    efab_tcp_helper_os_pollwait_register(new_ep);

  ci_bit_clear(&new_s->b.sb_aflags, CI_SB_AFLAG_ORPHAN_BIT);
  if( new_s->b.state == CI_TCP_ESTABLISHED )
    CI_TCP_STATS_INC_CURR_ESTAB(alien_ni);


  /* Copy recv queue */
  if( new_s->b.state & CI_TCP_STATE_TCP ) {
    ci_tcp_state *new_ts = SOCK_TO_TCP(new_s);
    ci_tcp_state *old_ts = SOCK_TO_TCP(old_s);
    int i;

    /* Stop timers */
    ci_ip_timer_clear(&old_thr->netif, &old_ts->kalive_tid);
    ci_ip_timer_clear(&old_thr->netif, &old_ts->delack_tid);

    efab_ip_queue_copy(alien_ni, &new_ts->recv1,
                       &old_thr->netif, &old_ts->recv1);
    efab_ip_queue_copy(alien_ni, &new_ts->recv2,
                       &old_thr->netif, &old_ts->recv2);
    new_ts->recv1_extract = new_ts->recv1.head;

    /* Drop reorder buffer */
    ci_ip_queue_init(&new_ts->rob);
    new_ts->dsack_block = OO_PP_INVALID;
    new_ts->dsack_start = new_ts->dsack_end = 0;
    for( i = 0; i <= CI_TCP_SACK_MAX_BLOCKS; i++ )
      new_ts->last_sack[i] = OO_PP_NULL;
  }
  else {
    /* There should not be any recv q, but drop it to be sure */
    ci_udp_recv_q_init(&SOCK_TO_UDP(new_s)->recv_q);
  }

  /* Old stack can be unlocked */
  old_s->b.sb_flags |= CI_SB_FLAG_MOVED;
  ci_netif_unlock(&old_thr->netif);

  ci_assert( efab_file_move_supported(alien_ni, new_s) );

  /* Move done: poll for any new data. */
  ci_netif_poll(alien_ni);

  if( new_s->b.state & CI_TCP_STATE_TCP ) {
    ci_tcp_state *new_ts = SOCK_TO_TCP(new_s);
    /* Timers setup: delack, keepalive */
    if( (new_ts->acks_pending & CI_TCP_ACKS_PENDING_MASK) > 0)
      ci_tcp_timeout_delack(alien_ni, new_ts);
    ci_tcp_kalive_reset(alien_ni, new_ts);
  }


  /* Old ep: we are done. */
  ci_bit_set(&old_s->b.sb_aflags, CI_SB_AFLAG_MOVED_AWAY_BIT);
  old_s->b.moved_to_stack_id = alien_ni->state->stack_id;
  old_s->b.moved_to_sock_id = new_s->b.bufid;
  if( ! list_empty(&priv->_filp->f_ep_links) )
    ci_bit_set(&old_s->b.sb_aflags, CI_SB_AFLAG_MOVED_AWAY_IN_EPOLL_BIT);

  ci_sock_unlock(&old_thr->netif, &old_s->b);
  ci_sock_unlock(alien_ni, &new_s->b);
  ci_assert(ci_netif_is_locked(alien_ni));
  OO_DEBUG_TCPH(ci_log("%s: -> [%d:%d] %s", __func__,
                       new_thr->id, new_s->b.bufid,
                       ci_tcp_state_str(new_s->b.state)));
  return 0;

fail4:
  /* We clear the filters from the new ep.
   * For now, we do not need to re-insert old filters because hw filters
   * are alredy here (in case of accepted socket) or not needed.
   * We have not removed old sw filters yet. */
  tcp_helper_endpoint_move_filters_undo(old_ep, new_ep);
fail3:
  if( new_s->b.state & CI_TCP_STATE_TCP )
    ci_tcp_state_free(alien_ni, SOCK_TO_TCP(new_s));
  else
    ci_udp_state_free(alien_ni, SOCK_TO_UDP(new_s));
fail2:
  ci_netif_unlock(alien_ni);
fail1:
  ci_netif_unlock(&old_thr->netif);
fail1_ni_unlocked:
  ci_sock_unlock(&old_thr->netif, &old_s->b);
  OO_DEBUG_TCPH(ci_log("%s: rc=%d", __func__, rc));
  return rc;
}
コード例 #2
0
ファイル: tcp_synrecv.c プロジェクト: bmschwa/openonload
/*
** promote a synrecv structure to an established socket
**
** Assumes that the caller will handle a fail if we can't allocate a new
** tcp_state structure due to memory pressure or the like
*/
int ci_tcp_listenq_try_promote(ci_netif* netif, ci_tcp_socket_listen* tls,
                               ci_tcp_state_synrecv* tsr,
                               ci_ip_cached_hdrs* ipcache,
                               ci_tcp_state** ts_out)
{
  int rc = 0;
  
  ci_assert(netif);
  ci_assert(tls);
  ci_assert(tls->s.b.state == CI_TCP_LISTEN);
  ci_assert(tsr);

  if( (int) ci_tcp_acceptq_n(tls) < tls->acceptq_max ) {
    ci_tcp_state* ts;

    /* grab a tcp_state structure that will go onto the accept queue.  We take
     * from the cache of EPs if any are available
     */
    ts = get_ts_from_cache (netif, tsr, tls); 
    if( !ts ) {
      /* None on cache; try allocating a new ts */
      ts = ci_tcp_get_state_buf(netif);
#if CI_CFG_FD_CACHING
      if( ts == NULL ) {
        /* We've reaped.  Did this result in any being cached */
        ts = get_ts_from_cache(netif, tsr, tls);
        if (ts == NULL ) {
          /* No -- try again to allocate. */
          ts = ci_tcp_get_state_buf(netif);
        }
        else {
          CITP_STATS_NETIF(++netif->state->stats.sockcache_hit_reap);
        }
      }
#endif
      if( ts == NULL ) {
        LOG_TV(ci_log("%s: [%d] out of socket buffers",
                      __FUNCTION__, NI_ID(netif)));
        CITP_STATS_TCP_LISTEN(++tls->stats.n_acceptq_no_sock);
        CI_SET_SO_ERROR(&tls->s, ENOMEM);
        citp_waitable_wake(netif, &tls->s.b, CI_SB_FLAG_WAKE_RX);
        return -ENOMEM;
      }


      ci_assert(ci_tcp_is_cached(ts) ||
                (ts->s.b.sb_aflags & CI_SB_AFLAG_ORPHAN));
    }

#ifdef ONLOAD_OFE
    ts->s.ofe_code_start = tls->ofe_promote;
#endif

    if( ! ci_tcp_is_cached(ts) ) {
      /* Need to initialise address information for use when setting filters */
      ci_tcp_set_addr_on_promote(netif, ts, tsr, tls);

      /* "borrow" filter from listening socket.  For loopback socket, we
       * do not need filters, but we have to take a reference of the OS
       * socket. */
      rc = ci_tcp_ep_set_filters(netif, S_SP(ts), ts->s.cp.so_bindtodevice,
                                 S_SP(tls));
      if( rc < 0 ) {
        LOG_U(ci_log("%s: Unable to set filters %d", __FUNCTION__, rc));
        /* Either put this back on the list (at the head) or free it */
        ci_tcp_state_free(netif, ts);
        return rc;
      }
    }
#if CI_CFG_FD_CACHING
    else {
      /* Now set the s/w filter.  We leave the hw filter in place for cached
       * EPS. This will probably not have the correct raddr and rport, but as
       * it's sharing the listening socket's filter that's not a problem.  It
       * will be updated if this is still around when the listener is closed.
       */
      rc = ci_netif_filter_insert(netif, S_SP(ts), tsr->l_addr,
                                  sock_lport_be16(&tls->s), tsr->r_addr,
                                  tsr->r_port, tcp_protocol(ts));

      if (rc < 0) {
        /* Bung it back on the cache list */
        LOG_EP(ci_log("Unable to create s/w filter!"));
        ci_ni_dllist_push(netif, &tls->epcache.cache, &ts->epcache_link);
        return rc;
      }

      /* Need to initialise address information.  We do this after trying to
       * insert the sw filter, so we can push the tcp state back onto the
       * cache queue with as few changes as possible if we fail to add the
       * sw filter.
       */
      ci_tcp_set_addr_on_promote(netif, ts, tsr, tls);

      LOG_EP(ci_log("Cached fd %d from cached to connected", ts->cached_on_fd));
      ci_ni_dllist_push(netif, &tls->epcache_connected, &ts->epcache_link);
    }
#endif

    ci_assert(IS_VALID_SOCK_P(netif, S_SP(ts)));
    ci_assert(ts->s.b.state == CI_TCP_CLOSED);
    ts->s.domain = tls->s.domain;

    cicp_ip_cache_update_from(netif, &ts->s.pkt, ipcache);
    ci_pmtu_state_init(netif, &ts->s, &ts->pmtus,
                       CI_IP_TIMER_PMTU_DISCOVER);
    ci_pmtu_set(netif, &ts->pmtus,
                CI_MIN(ts->s.pkt.mtu,
                       tsr->tcpopts.smss + sizeof(ci_tcp_hdr)
                         + sizeof(ci_ip4_hdr)));

    /* If we've got SYN via local route, we can handle it */
    ci_assert_equiv(ts->s.pkt.status == retrrc_localroute,
                    OO_SP_NOT_NULL(tsr->local_peer));
    if( ts->s.pkt.status == retrrc_localroute )
      ts->s.pkt.flags |= CI_IP_CACHE_IS_LOCALROUTE;

    ts->amss = tsr->amss;

    /* options and flags */
    ts->tcpflags = 0;
    ts->tcpflags |= tsr->tcpopts.flags;
    ts->tcpflags |= CI_TCPT_FLAG_PASSIVE_OPENED;
    ts->outgoing_hdrs_len = sizeof(ci_ip4_hdr) + sizeof(ci_tcp_hdr);
    if( ts->tcpflags & CI_TCPT_FLAG_WSCL ) {
      ts->snd_wscl = tsr->tcpopts.wscl_shft;
      ts->rcv_wscl = tsr->rcv_wscl;
    } else {
      ts->snd_wscl = ts->rcv_wscl = 0u;
    }
    CI_IP_SOCK_STATS_VAL_TXWSCL( ts, ts->snd_wscl);
    CI_IP_SOCK_STATS_VAL_RXWSCL( ts, ts->rcv_wscl);

    /* Send and receive sequence numbers */
    tcp_snd_una(ts) = tcp_snd_nxt(ts) = tcp_enq_nxt(ts) = tcp_snd_up(ts) =
      tsr->snd_isn + 1;
    ci_tcp_set_snd_max(ts, tsr->rcv_nxt, tcp_snd_una(ts), 0);
    ci_tcp_rx_set_isn(ts, tsr->rcv_nxt);
    tcp_rcv_up(ts) = SEQ_SUB(tcp_rcv_nxt(ts), 1);

    if( ts->tcpflags & CI_TCPT_FLAG_TSO ) {
      ts->incoming_tcp_hdr_len += 12;
      ts->outgoing_hdrs_len += 12;
      ts->tspaws = ci_tcp_time_now(netif);
      ts->tsrecent = tsr->tspeer;
      ts->tslastack = tsr->rcv_nxt;
    }
    else {
      /* Must be after initialising snd_una. */
      ci_tcp_clear_rtt_timing(ts);
      ts->timed_ts = tsr->timest;
    }
    /* SACK has nothing to be done. */

    /* ?? ECN */
    ci_tcp_set_hdr_len(ts, (ts->outgoing_hdrs_len - sizeof(ci_ip4_hdr)));

    ts->smss = tsr->tcpopts.smss;
    ts->c.user_mss = tls->c.user_mss;
    if (ts->c.user_mss && ts->c.user_mss < ts->smss)
      ts->smss = ts->c.user_mss;
#if CI_CFG_LIMIT_SMSS
    ts->smss = ci_tcp_limit_mss(ts->smss, netif, __FUNCTION__);
#endif
    ci_assert(ts->smss>0);
    ci_tcp_set_eff_mss(netif, ts);
    ci_tcp_set_initialcwnd(netif, ts);

    /* Copy socket options & related fields that should be inherited. 
     * Note: Windows does not inherit rcvbuf until the call to accept 
     * completes. The assumption here is that all options can be
     * inherited at the same time (most won't have an effect until there
     * is a socket available for use by the app.).
     */
    ci_tcp_inherit_accept_options(netif, tls, ts, "SYN RECV (LISTENQ PROMOTE)");

    /* NB. Must have already set peer (which we have). */
    ci_tcp_set_established_state(netif, ts);
    CITP_STATS_NETIF(++netif->state->stats.synrecv2established);
  
    ci_assert(ts->ka_probes == 0);
    ci_tcp_kalive_restart(netif, ts, ci_tcp_kalive_idle_get(ts));
    ci_tcp_set_flags(ts, CI_TCP_FLAG_ACK);

    /* Remove the synrecv structure from the listen queue, and free the
    ** buffer. */
    if( tsr->tcpopts.flags & CI_TCPT_FLAG_SYNCOOKIE )
      ci_free(tsr);
    else {
      ci_tcp_listenq_remove(netif, tls, tsr);
      ci_tcp_synrecv_free(netif, tsr);
    }

    ci_bit_set(&ts->s.b.sb_aflags, CI_SB_AFLAG_TCP_IN_ACCEPTQ_BIT);
    ci_tcp_acceptq_put(netif, tls, &ts->s.b);

    LOG_TC(log(LNT_FMT "new ts=%d SYN-RECV->ESTABLISHED flags=0x%x",
               LNT_PRI_ARGS(netif, tls), S_FMT(ts), ts->tcpflags);
           log(LNTS_FMT RCV_WND_FMT " snd=%08x-%08x-%08x enq=%08x",
               LNTS_PRI_ARGS(netif, ts), RCV_WND_ARGS(ts),
               tcp_snd_una(ts),
               tcp_snd_nxt(ts), ts->snd_max, tcp_enq_nxt(ts)));

    citp_waitable_wake(netif, &tls->s.b, CI_SB_FLAG_WAKE_RX);
    *ts_out = ts;
    return 0;
  }