rx: conn->callNumber protected by conn_call_lock

[openafs.git] / src / rx / rx.c

diff --git a/src/rx/rx.c b/src/rx/rx.c
index 06fdef2..a832c21 100644 (file)
--- a/src/rx/rx.c
+++ b/src/rx/rx.c
@@ -23,10 +23,8 @@
 #   include "h/socket.h"
 #  endif
 #  include "netinet/in.h"
-#  ifdef AFS_SUN58_ENV
+#  ifdef AFS_SUN5_ENV
 #   include "netinet/ip6.h"
-#  endif
-#  ifdef AFS_SUN57_ENV
 #   include "inet/common.h"
 #   include "inet/ip.h"
 #   include "inet/ip_ire.h"
@@ -80,6 +78,11 @@ extern afs_int32 afs_termState;
 #include "rx_trace.h"
 #include "rx_internal.h"
 #include "rx_stats.h"
+#include "rx_event.h"
+
+#include "rx_conn.h"
+#include "rx_call.h"
+#include "rx_packet.h"
 
 #include <afs/rxgen_consts.h>
 
@@ -98,7 +101,18 @@ int (*swapNameProgram) (PROCESS, const char *, char *) = 0;
 /* Local static routines */
 static void rxi_DestroyConnectionNoLock(struct rx_connection *conn);
 static void rxi_ComputeRoundTripTime(struct rx_packet *, struct rx_ackPacket *,
-                                    struct rx_peer *, struct clock *);
+                                    struct rx_call *, struct rx_peer *,
+                                    struct clock *);
+static void rxi_Resend(struct rxevent *event, void *arg0, void *arg1,
+                      int istack);
+static void rxi_SendDelayedAck(struct rxevent *event, void *call,
+                               void *dummy, int dummy2);
+static void rxi_SendDelayedCallAbort(struct rxevent *event, void *arg1,
+                                    void *dummy, int dummy2);
+static void rxi_SendDelayedConnAbort(struct rxevent *event, void *arg1,
+                                    void *unused, int unused2);
+static void rxi_ReapConnections(struct rxevent *unused, void *unused1,
+                               void *unused2, int unused3);
 
 #ifdef RX_ENABLE_LOCKS
 static void rxi_SetAcksInTransmitQueue(struct rx_call *call);
@@ -111,6 +125,25 @@ struct rx_tq_debug {
 } rx_tq_debug;
 #endif /* AFS_GLOBAL_RXLOCK_KERNEL */
 
+/* Constant delay time before sending an acknowledge of the last packet
+ * received.  This is to avoid sending an extra acknowledge when the
+ * client is about to make another call, anyway, or the server is
+ * about to respond.
+ *
+ * The lastAckDelay may not exceeed 400ms without causing peers to
+ * unecessarily timeout.
+ */
+struct clock rx_lastAckDelay = {0, 400000};
+
+/* Constant delay time before sending a soft ack when none was requested.
+ * This is to make sure we send soft acks before the sender times out,
+ * Normally we wait and send a hard ack when the receiver consumes the packet
+ *
+ * This value has been 100ms in all shipping versions of OpenAFS. Changing it
+ * will require changes to the peer's RTT calculations.
+ */
+struct clock rx_softAckDelay = {0, 100000};
+
 /*
  * rxi_rpc_peer_stat_cnt counts the total number of peer stat structures
  * currently allocated within rx.  This number is used to allocate the
@@ -130,12 +163,12 @@ static unsigned int rxi_rpc_peer_stat_cnt;
 static unsigned int rxi_rpc_process_stat_cnt;
 
 /*
- * rxi_busyChannelError is the error to return to the application when a call
- * channel appears busy (inferred from the receipt of RX_PACKET_TYPE_BUSY
- * packets on the channel), and there are other call channels in the
- * connection that are not busy. If 0, we do not return errors upon receiving
- * busy packets; we just keep trying on the same call channel until we hit a
- * timeout.
+ * rxi_busyChannelError is a boolean.  It indicates whether or not RX_CALL_BUSY
+ * errors should be reported to the application when a call channel appears busy
+ * (inferred from the receipt of RX_PACKET_TYPE_BUSY packets on the channel),
+ * and there are other call channels in the connection that are not busy.
+ * If 0, we do not return errors upon receiving busy packets; we just keep
+ * trying on the same call channel until we hit a timeout.
  */
 static afs_int32 rxi_busyChannelError = 0;
 
@@ -153,6 +186,13 @@ afs_kmutex_t rx_atomic_mutex;
 /* Forward prototypes */
 static struct rx_call * rxi_NewCall(struct rx_connection *, int);
 
+static_inline void
+putConnection (struct rx_connection *conn) {
+    MUTEX_ENTER(&rx_refcnt_mutex);
+    conn->refCount--;
+    MUTEX_EXIT(&rx_refcnt_mutex);
+}
+
 #ifdef AFS_PTHREAD_ENV
 
 /*
@@ -168,13 +208,10 @@ extern afs_kmutex_t des_init_mutex;
 extern afs_kmutex_t des_random_mutex;
 extern afs_kmutex_t rx_clock_mutex;
 extern afs_kmutex_t rxi_connCacheMutex;
-extern afs_kmutex_t rx_event_mutex;
 extern afs_kmutex_t event_handler_mutex;
 extern afs_kmutex_t listener_mutex;
 extern afs_kmutex_t rx_if_init_mutex;
 extern afs_kmutex_t rx_if_mutex;
-extern afs_kmutex_t rxkad_client_uid_mutex;
-extern afs_kmutex_t rxkad_random_mutex;
 
 extern afs_kcondvar_t rx_event_handler_cond;
 extern afs_kcondvar_t rx_listener_cond;
@@ -196,14 +233,11 @@ rxi_InitPthread(void)
     MUTEX_INIT(&rx_refcnt_mutex, "refcnts", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&epoch_mutex, "epoch", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&rx_init_mutex, "init", MUTEX_DEFAULT, 0);
-    MUTEX_INIT(&rx_event_mutex, "event", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&event_handler_mutex, "event handler", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&rxi_connCacheMutex, "conn cache", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&listener_mutex, "listener", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&rx_if_init_mutex, "if init", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&rx_if_mutex, "if", MUTEX_DEFAULT, 0);
-    MUTEX_INIT(&rxkad_client_uid_mutex, "uid", MUTEX_DEFAULT, 0);
-    MUTEX_INIT(&rxkad_random_mutex, "rxkad random", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&rx_debug_mutex, "debug", MUTEX_DEFAULT, 0);
 
     CV_INIT(&rx_event_handler_cond, "evhand", CV_DEFAULT, 0);
@@ -212,8 +246,6 @@ rxi_InitPthread(void)
     osi_Assert(pthread_key_create(&rx_thread_id_key, NULL) == 0);
     osi_Assert(pthread_key_create(&rx_ts_info_key, NULL) == 0);
 
-    rxkad_global_stats_init();
-
     MUTEX_INIT(&rx_rpc_stats, "rx_rpc_stats", MUTEX_DEFAULT, 0);
     MUTEX_INIT(&rx_freePktQ_lock, "rx_freePktQ_lock", MUTEX_DEFAULT, 0);
 #ifdef RX_ENABLE_LOCKS
@@ -299,10 +331,8 @@ pthread_once_t rx_once_init = PTHREAD_ONCE_INIT;
  * to manipulate the queue.
  */
 
-#if defined(RX_ENABLE_LOCKS) && defined(KERNEL)
+#if defined(RX_ENABLE_LOCKS)
 static afs_kmutex_t rx_rpc_stats;
-static void rxi_StartUnlocked(struct rxevent *event, void *call,
-                       void *arg1, int istack);
 #endif
 
 /* We keep a "last conn pointer" in rxi_FindConnection. The odds are
@@ -562,12 +592,8 @@ rx_InitHost(u_int host, u_int port)
     rx_connHashTable = (struct rx_connection **)htable;
     rx_peerHashTable = (struct rx_peer **)ptable;
 
-    rx_lastAckDelay.sec = 0;
-    rx_lastAckDelay.usec = 400000;     /* 400 milliseconds */
     rx_hardAckDelay.sec = 0;
     rx_hardAckDelay.usec = 100000;     /* 100 milliseconds */
-    rx_softAckDelay.sec = 0;
-    rx_softAckDelay.usec = 100000;     /* 100 milliseconds */
 
     rxevent_Init(20, rxi_ReScheduleEvents);
 
@@ -599,18 +625,176 @@ rx_Init(u_int port)
     return rx_InitHost(htonl(INADDR_ANY), port);
 }
 
+/* RTT Timer
+ * ---------
+ *
+ * The rxi_rto functions implement a TCP (RFC2988) style algorithm for
+ * maintaing the round trip timer.
+ *
+ */
+
+/*!
+ * Start a new RTT timer for a given call and packet.
+ *
+ * There must be no resendEvent already listed for this call, otherwise this
+ * will leak events - intended for internal use within the RTO code only
+ *
+ * @param[in] call
+ *     the RX call to start the timer for
+ * @param[in] lastPacket
+ *     a flag indicating whether the last packet has been sent or not
+ *
+ * @pre call must be locked before calling this function
+ *
+ */
+static_inline void
+rxi_rto_startTimer(struct rx_call *call, int lastPacket, int istack)
+{
+    struct clock now, retryTime;
+
+    clock_GetTime(&now);
+    retryTime = now;
+
+    clock_Add(&retryTime, &call->rto);
+
+    /* If we're sending the last packet, and we're the client, then the server
+     * may wait for an additional 400ms before returning the ACK, wait for it
+     * rather than hitting a timeout */
+    if (lastPacket && call->conn->type == RX_CLIENT_CONNECTION)
+       clock_Addmsec(&retryTime, 400);
+
+    CALL_HOLD(call, RX_CALL_REFCOUNT_RESEND);
+    call->resendEvent = rxevent_Post(&retryTime, &now, rxi_Resend,
+                                    call, NULL, istack);
+}
+
+/*!
+ * Cancel an RTT timer for a given call.
+ *
+ *
+ * @param[in] call
+ *     the RX call to cancel the timer for
+ *
+ * @pre call must be locked before calling this function
+ *
+ */
+
+static_inline void
+rxi_rto_cancel(struct rx_call *call)
+{
+    rxevent_Cancel(&call->resendEvent, call, RX_CALL_REFCOUNT_RESEND);
+}
+
+/*!
+ * Tell the RTO timer that we have sent a packet.
+ *
+ * If the timer isn't already running, then start it. If the timer is running,
+ * then do nothing.
+ *
+ * @param[in] call
+ *     the RX call that the packet has been sent on
+ * @param[in] lastPacket
+ *     A flag which is true if this is the last packet for the call
+ *
+ * @pre The call must be locked before calling this function
+ *
+ */
+
+static_inline void
+rxi_rto_packet_sent(struct rx_call *call, int lastPacket, int istack)
+{
+    if (call->resendEvent)
+       return;
+
+    rxi_rto_startTimer(call, lastPacket, istack);
+}
+
+/*!
+ * Tell the RTO timer that we have received an new ACK message
+ *
+ * This function should be called whenever a call receives an ACK that
+ * acknowledges new packets. Whatever happens, we stop the current timer.
+ * If there are unacked packets in the queue which have been sent, then
+ * we restart the timer from now. Otherwise, we leave it stopped.
+ *
+ * @param[in] call
+ *     the RX call that the ACK has been received on
+ */
+
+static_inline void
+rxi_rto_packet_acked(struct rx_call *call, int istack)
+{
+    struct rx_packet *p, *nxp;
+
+    rxi_rto_cancel(call);
+
+    if (queue_IsEmpty(&call->tq))
+       return;
+
+    for (queue_Scan(&call->tq, p, nxp, rx_packet)) {
+       if (p->header.seq > call->tfirst + call->twind)
+           return;
+
+       if (!(p->flags & RX_PKTFLAG_ACKED) && p->flags & RX_PKTFLAG_SENT) {
+           rxi_rto_startTimer(call, p->header.flags & RX_LAST_PACKET, istack);
+           return;
+       }
+    }
+}
+
+
+/**
+ * Set an initial round trip timeout for a peer connection
+ *
+ * @param[in] secs The timeout to set in seconds
+ */
+
+void
+rx_rto_setPeerTimeoutSecs(struct rx_peer *peer, int secs) {
+    peer->rtt = secs * 8000;
+}
+
 /**
- * Sets the error generated when a busy call channel is detected.
+ * Enables or disables the busy call channel error (RX_CALL_BUSY).
  *
- * @param[in] error The error to return for a call on a busy channel.
+ * @param[in] onoff Non-zero to enable busy call channel errors.
  *
  * @pre Neither rx_Init nor rx_InitHost have been called yet
  */
 void
-rx_SetBusyChannelError(afs_int32 error)
+rx_SetBusyChannelError(afs_int32 onoff)
 {
     osi_Assert(rxinit_status != 0);
-    rxi_busyChannelError = error;
+    rxi_busyChannelError = onoff ? 1 : 0;
+}
+
+/**
+ * Set a delayed ack event on the specified call for the given time
+ *
+ * @param[in] call - the call on which to set the event
+ * @param[in] offset - the delay from now after which the event fires
+ */
+void
+rxi_PostDelayedAckEvent(struct rx_call *call, struct clock *offset)
+{
+    struct clock now, when;
+
+    clock_GetTime(&now);
+    when = now;
+    clock_Add(&when, offset);
+
+    if (!call->delayedAckEvent
+       || clock_Gt(&call->delayedAckTime, &when)) {
+
+        rxevent_Cancel(&call->delayedAckEvent, call,
+                      RX_CALL_REFCOUNT_DELAY);
+       CALL_HOLD(call, RX_CALL_REFCOUNT_DELAY);
+
+       call->delayedAckEvent = rxevent_Post(&when, &now,
+                                            rxi_SendDelayedAck,
+                                            call, NULL, 0);
+       call->delayedAckTime = when;
+    }
 }
 
 /* called with unincremented nRequestsRunning to see if it is OK to start
@@ -772,7 +956,7 @@ rx_StartServer(int donateMe)
     }
 
     /* Turn on reaping of idle server connections */
-    rxi_ReapConnections(NULL, NULL, NULL);
+    rxi_ReapConnections(NULL, NULL, NULL, 0);
 
     USERPRI;
 
@@ -927,6 +1111,7 @@ void
 rx_SetConnIdleDeadTime(struct rx_connection *conn, int seconds)
 {
     conn->idleDeadTime = seconds;
+    conn->idleDeadDetection = (seconds ? 1 : 0);
     rxi_CheckConnTimeouts(conn);
 }
 
@@ -1060,6 +1245,7 @@ rxi_DestroyConnectionNoLock(struct rx_connection *conn)
     MUTEX_EXIT(&conn->conn_data_lock);
 
     /* Check for extant references to this connection */
+    MUTEX_ENTER(&conn->conn_call_lock);
     for (i = 0; i < RX_MAXCALLS; i++) {
        struct rx_call *call = conn->call[i];
        if (call) {
@@ -1070,7 +1256,7 @@ rxi_DestroyConnectionNoLock(struct rx_connection *conn)
                    /* Push the final acknowledgment out now--there
                     * won't be a subsequent call to acknowledge the
                     * last reply packets */
-                   rxevent_Cancel(call->delayedAckEvent, call,
+                   rxevent_Cancel(&call->delayedAckEvent, call,
                                   RX_CALL_REFCOUNT_DELAY);
                    if (call->state == RX_STATE_PRECALL
                        || call->state == RX_STATE_ACTIVE) {
@@ -1083,6 +1269,8 @@ rxi_DestroyConnectionNoLock(struct rx_connection *conn)
            }
        }
     }
+    MUTEX_EXIT(&conn->conn_call_lock);
+
 #ifdef RX_ENABLE_LOCKS
     if (!havecalls) {
        if (MUTEX_TRYENTER(&conn->conn_data_lock)) {
@@ -1109,7 +1297,7 @@ rxi_DestroyConnectionNoLock(struct rx_connection *conn)
     }
 
     if (conn->delayedAbortEvent) {
-       rxevent_Cancel(conn->delayedAbortEvent, (struct rx_call *)0, 0);
+       rxevent_Cancel(&conn->delayedAbortEvent, NULL, 0);
        packet = rxi_AllocPacket(RX_PACKET_CLASS_SPECIAL);
        if (packet) {
            MUTEX_ENTER(&conn->conn_data_lock);
@@ -1137,12 +1325,9 @@ rxi_DestroyConnectionNoLock(struct rx_connection *conn)
 
     /* Make sure the connection is completely reset before deleting it. */
     /* get rid of pending events that could zap us later */
-    if (conn->challengeEvent)
-       rxevent_Cancel(conn->challengeEvent, (struct rx_call *)0, 0);
-    if (conn->checkReachEvent)
-       rxevent_Cancel(conn->checkReachEvent, (struct rx_call *)0, 0);
-    if (conn->natKeepAliveEvent)
-       rxevent_Cancel(conn->natKeepAliveEvent, (struct rx_call *)0, 0);
+    rxevent_Cancel(&conn->challengeEvent, NULL, 0);
+    rxevent_Cancel(&conn->checkReachEvent, NULL, 0);
+    rxevent_Cancel(&conn->natKeepAliveEvent, NULL, 0);
 
     /* Add the connection to the list of destroyed connections that
      * need to be cleaned up. This is necessary to avoid deadlocks
@@ -1310,12 +1495,11 @@ rx_NewCall(struct rx_connection *conn)
                          * effect on overall system performance.
                          */
                         call->state = RX_STATE_RESET;
+                        CALL_HOLD(call, RX_CALL_REFCOUNT_BEGIN);
+                        (*call->callNumber)++;
                         MUTEX_EXIT(&conn->conn_call_lock);
-                        MUTEX_ENTER(&rx_refcnt_mutex);
                         CALL_HOLD(call, RX_CALL_REFCOUNT_BEGIN);
-                        MUTEX_EXIT(&rx_refcnt_mutex);
                         rxi_ResetCall(call, 0);
-                        (*call->callNumber)++;
                         if (MUTEX_TRYENTER(&conn->conn_call_lock))
                             break;
 
@@ -1345,9 +1529,7 @@ rx_NewCall(struct rx_connection *conn)
                          * Instead, cycle through one more time to see if
                          * we can find a call that can call our own.
                          */
-                        MUTEX_ENTER(&rx_refcnt_mutex);
                         CALL_RELE(call, RX_CALL_REFCOUNT_BEGIN);
-                        MUTEX_EXIT(&rx_refcnt_mutex);
                         wait = 0;
                     }
                     MUTEX_EXIT(&call->lock);
@@ -1364,14 +1546,13 @@ rx_NewCall(struct rx_connection *conn)
 
                 /* rxi_NewCall returns with mutex locked */
                call = rxi_NewCall(conn, i);
-                MUTEX_ENTER(&rx_refcnt_mutex);
                 CALL_HOLD(call, RX_CALL_REFCOUNT_BEGIN);
-                MUTEX_EXIT(&rx_refcnt_mutex);
                break;
            }
        }
        if (i < RX_MAXCALLS) {
            conn->lastBusy[i] = 0;
+           call->flags &= ~RX_CALL_PEER_BUSY;
            break;
        }
         if (!wait)
@@ -1481,12 +1662,14 @@ rxi_GetCallNumberVector(struct rx_connection *aconn,
     SPLVAR;
 
     NETPRI;
+    MUTEX_ENTER(&aconn->conn_call_lock);
     for (i = 0; i < RX_MAXCALLS; i++) {
        if ((tcall = aconn->call[i]) && (tcall->state == RX_STATE_DALLY))
            aint32s[i] = aconn->callNumber[i] + 1;
        else
            aint32s[i] = aconn->callNumber[i];
     }
+    MUTEX_EXIT(&aconn->conn_call_lock);
     USERPRI;
     return 0;
 }
@@ -1500,12 +1683,14 @@ rxi_SetCallNumberVector(struct rx_connection *aconn,
     SPLVAR;
 
     NETPRI;
+    MUTEX_ENTER(&aconn->conn_call_lock);
     for (i = 0; i < RX_MAXCALLS; i++) {
        if ((tcall = aconn->call[i]) && (tcall->state == RX_STATE_DALLY))
            aconn->callNumber[i] = aint32s[i] - 1;
        else
            aconn->callNumber[i] = aint32s[i];
     }
+    MUTEX_EXIT(&aconn->conn_call_lock);
     USERPRI;
     return 0;
 }
@@ -1663,6 +1848,20 @@ rxi_ServerProc(int threadID, struct rx_call *newcall, osi_socket * socketp)
            }
        }
 
+#ifdef KERNEL
+       if (afs_termState == AFSOP_STOP_RXCALLBACK) {
+#ifdef RX_ENABLE_LOCKS
+           AFS_GLOCK();
+#endif /* RX_ENABLE_LOCKS */
+           afs_termState = AFSOP_STOP_AFS;
+           afs_osi_Wakeup(&afs_termState);
+#ifdef RX_ENABLE_LOCKS
+           AFS_GUNLOCK();
+#endif /* RX_ENABLE_LOCKS */
+           return;
+       }
+#endif
+
        /* if server is restarting( typically smooth shutdown) then do not
         * allow any new calls.
         */
@@ -1678,20 +1877,8 @@ rxi_ServerProc(int threadID, struct rx_call *newcall, osi_socket * socketp)
 
            MUTEX_EXIT(&call->lock);
            USERPRI;
+           continue;
        }
-#ifdef KERNEL
-       if (afs_termState == AFSOP_STOP_RXCALLBACK) {
-#ifdef RX_ENABLE_LOCKS
-           AFS_GLOCK();
-#endif /* RX_ENABLE_LOCKS */
-           afs_termState = AFSOP_STOP_AFS;
-           afs_osi_Wakeup(&afs_termState);
-#ifdef RX_ENABLE_LOCKS
-           AFS_GUNLOCK();
-#endif /* RX_ENABLE_LOCKS */
-           return;
-       }
-#endif
 
        tservice = call->conn->service;
 
@@ -1704,6 +1891,10 @@ rxi_ServerProc(int threadID, struct rx_call *newcall, osi_socket * socketp)
            (*tservice->afterProc) (call, code);
 
        rx_EndCall(call, code);
+
+       if (tservice->postProc)
+           (*tservice->postProc) (code);
+
         if (rx_stats_active) {
             MUTEX_ENTER(&rx_stats_mutex);
             rxi_nCalls++;
@@ -1822,7 +2013,7 @@ rx_GetCall(int tno, struct rx_service *cur_service, osi_socket * socketp)
                }
                MUTEX_ENTER(&rx_pthread_mutex);
                if (tno == rxi_fcfs_thread_num
-                   || !tcall->queue_item_header.next) {
+                       || queue_IsLast(&rx_incomingCallQueue, tcall)) {
                    MUTEX_EXIT(&rx_pthread_mutex);
                    /* If we're the fcfs thread , then  we'll just use
                     * this call. If we haven't been able to find an optimal
@@ -1941,9 +2132,7 @@ rx_GetCall(int tno, struct rx_service *cur_service, osi_socket * socketp)
             call));
 
        MUTEX_EXIT(&call->lock);
-        MUTEX_ENTER(&rx_refcnt_mutex);
        CALL_HOLD(call, RX_CALL_REFCOUNT_BEGIN);
-        MUTEX_EXIT(&rx_refcnt_mutex);
     } else {
        dpf(("rx_GetCall(socketp=%p, *socketp=0x%x)\n", socketp, *socketp));
     }
@@ -2183,8 +2372,8 @@ rx_EndCall(struct rx_call *call, afs_int32 rc)
        } else {
            call->state = RX_STATE_DALLY;
            rxi_ClearTransmitQueue(call, 0);
-           rxevent_Cancel(call->resendEvent, call, RX_CALL_REFCOUNT_RESEND);
-           rxevent_Cancel(call->keepAliveEvent, call,
+           rxi_rto_cancel(call);
+           rxevent_Cancel(&call->keepAliveEvent, call,
                           RX_CALL_REFCOUNT_ALIVE);
        }
     } else {                   /* Client connection */
@@ -2202,10 +2391,9 @@ rx_EndCall(struct rx_call *call, afs_int32 rc)
         * and force-send it now.
         */
        if (call->delayedAckEvent) {
-           rxevent_Cancel(call->delayedAckEvent, call,
+           rxevent_Cancel(&call->delayedAckEvent, call,
                           RX_CALL_REFCOUNT_DELAY);
-           call->delayedAckEvent = NULL;
-           rxi_SendDelayedAck(NULL, call, NULL);
+           rxi_SendDelayedAck(NULL, call, NULL, 0);
        }
 
        /* We need to release the call lock since it's lower than the
@@ -2265,9 +2453,7 @@ rx_EndCall(struct rx_call *call, afs_int32 rc)
         rxi_FreePackets(0, &call->iovq);
     MUTEX_EXIT(&call->lock);
 
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_RELE(call, RX_CALL_REFCOUNT_BEGIN);
-    MUTEX_EXIT(&rx_refcnt_mutex);
     if (conn->type == RX_CLIENT_CONNECTION) {
        MUTEX_ENTER(&conn->conn_data_lock);
        conn->flags &= ~RX_CONN_BUSY;
@@ -2496,16 +2682,16 @@ rxi_NewCall(struct rx_connection *conn, int channel)
  *
  * call->lock amd rx_refcnt_mutex are held upon entry.
  * haveCTLock is set when called from rxi_ReapConnections.
+ *
+ * return 1 if the call is freed, 0 if not.
  */
-static void
+static int
 rxi_FreeCall(struct rx_call *call, int haveCTLock)
 {
     int channel = call->channel;
     struct rx_connection *conn = call->conn;
+    u_char state = call->state;
 
-
-    if (call->state == RX_STATE_DALLY || call->state == RX_STATE_HOLD)
-       (*call->callNumber)++;
     /*
      * We are setting the state to RX_STATE_RESET to
      * ensure that no one else will attempt to use this
@@ -2517,7 +2703,25 @@ rxi_FreeCall(struct rx_call *call, int haveCTLock)
     call->state = RX_STATE_RESET;
     MUTEX_EXIT(&rx_refcnt_mutex);
     rxi_ResetCall(call, 0);
-    call->conn->call[channel] = (struct rx_call *)0;
+
+    if (MUTEX_TRYENTER(&conn->conn_call_lock))
+    {
+        if (state == RX_STATE_DALLY || state == RX_STATE_HOLD)
+            (*call->callNumber)++;
+
+        if (call->conn->call[channel] == call)
+            call->conn->call[channel] = 0;
+        MUTEX_EXIT(&conn->conn_call_lock);
+    } else {
+        /*
+         * We couldn't obtain the conn_call_lock so we can't
+         * disconnect the call from the connection.  Set the
+         * call state to dally so that the call can be reused.
+         */
+        MUTEX_ENTER(&rx_refcnt_mutex);
+        call->state = RX_STATE_DALLY;
+        return 0;
+    }
 
     MUTEX_ENTER(&rx_freeCallQueue_lock);
     SET_CALL_QUEUE_LOCK(call, &rx_freeCallQueue_lock);
@@ -2567,6 +2771,7 @@ rxi_FreeCall(struct rx_call *call, int haveCTLock)
        MUTEX_EXIT(&conn->conn_data_lock);
     }
     MUTEX_ENTER(&rx_refcnt_mutex);
+    return 1;
 }
 
 rx_atomic_t rxi_Allocsize = RX_ATOMIC_INIT(0);
@@ -2797,8 +3002,8 @@ rxi_FindConnection(osi_socket socket, afs_uint32 host,
        conn->nSpecific = 0;
        conn->specific = NULL;
        rx_SetConnDeadTime(conn, service->connDeadTime);
-       rx_SetConnIdleDeadTime(conn, service->idleDeadTime);
-       rx_SetServerConnIdleDeadErr(conn, service->idleDeadErr);
+       conn->idleDeadTime = service->idleDeadTime;
+       conn->idleDeadDetection = service->idleDeadErr ? 1 : 0;
        for (i = 0; i < RX_MAXCALLS; i++) {
            conn->twind[i] = rx_initSendWindow;
            conn->rwind[i] = rx_initReceiveWindow;
@@ -2841,11 +3046,12 @@ rxi_CheckBusy(struct rx_call *call)
     int channel = call->channel;
     int freechannel = 0;
     int i;
-    afs_uint32 callNumber = *call->callNumber;
+    afs_uint32 callNumber;
 
     MUTEX_EXIT(&call->lock);
 
     MUTEX_ENTER(&conn->conn_call_lock);
+    callNumber = *call->callNumber;
 
     /* Are there any other call slots on this conn that we should try? Look for
      * slots that are empty and are either non-busy, or were marked as busy
@@ -2879,8 +3085,6 @@ rxi_CheckBusy(struct rx_call *call)
        }
     }
 
-    MUTEX_EXIT(&conn->conn_call_lock);
-
     MUTEX_ENTER(&call->lock);
 
     /* Since the call->lock and conn->conn_call_lock have been released it is
@@ -2898,8 +3102,9 @@ rxi_CheckBusy(struct rx_call *call)
         * rxi_busyChannelError so the application can retry the request,
         * presumably on a less-busy call channel. */
 
-       rxi_CallError(call, rxi_busyChannelError);
+       rxi_CallError(call, RX_CALL_BUSY);
     }
+    MUTEX_EXIT(&conn->conn_call_lock);
 }
 
 /* There are two packet tracing routines available for testing and monitoring
@@ -2994,11 +3199,6 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
        return np;
     }
 
-    MUTEX_ENTER(&conn->conn_data_lock);
-    if (conn->maxSerial < np->header.serial)
-       conn->maxSerial = np->header.serial;
-    MUTEX_EXIT(&conn->conn_data_lock);
-
     /* If the connection is in an error state, send an abort packet and ignore
      * the incoming packet */
     if (conn->error) {
@@ -3006,9 +3206,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
        MUTEX_ENTER(&conn->conn_data_lock);
        if (np->header.type != RX_PACKET_TYPE_ABORT)
            np = rxi_SendConnectionAbort(conn, np, 1, 0);
-        MUTEX_ENTER(&rx_refcnt_mutex);
-       conn->refCount--;
-        MUTEX_EXIT(&rx_refcnt_mutex);
+       putConnection(conn);
        MUTEX_EXIT(&conn->conn_data_lock);
        return np;
     }
@@ -3021,137 +3219,104 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
            afs_int32 errcode = ntohl(rx_GetInt32(np, 0));
            dpf(("rxi_ReceivePacket ABORT rx_GetInt32 = %d\n", errcode));
            rxi_ConnectionError(conn, errcode);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            return np;
        }
        case RX_PACKET_TYPE_CHALLENGE:
            tnp = rxi_ReceiveChallengePacket(conn, np, 1);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            return tnp;
        case RX_PACKET_TYPE_RESPONSE:
            tnp = rxi_ReceiveResponsePacket(conn, np, 1);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            return tnp;
        case RX_PACKET_TYPE_PARAMS:
        case RX_PACKET_TYPE_PARAMS + 1:
        case RX_PACKET_TYPE_PARAMS + 2:
            /* ignore these packet types for now */
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            return np;
 
-
        default:
            /* Should not reach here, unless the peer is broken: send an
             * abort packet */
            rxi_ConnectionError(conn, RX_PROTOCOL_ERROR);
            MUTEX_ENTER(&conn->conn_data_lock);
            tnp = rxi_SendConnectionAbort(conn, np, 1, 0);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            MUTEX_EXIT(&conn->conn_data_lock);
            return tnp;
        }
     }
 
     channel = np->header.cid & RX_CHANNELMASK;
+    MUTEX_ENTER(&conn->conn_call_lock);
     call = conn->call[channel];
-#ifdef RX_ENABLE_LOCKS
-    if (call)
-       MUTEX_ENTER(&call->lock);
-    /* Test to see if call struct is still attached to conn. */
-    if (call != conn->call[channel]) {
-       if (call)
-           MUTEX_EXIT(&call->lock);
-       if (type == RX_SERVER_CONNECTION) {
-           call = conn->call[channel];
-           /* If we started with no call attached and there is one now,
-            * another thread is also running this routine and has gotten
-            * the connection channel. We should drop this packet in the tests
-            * below. If there was a call on this connection and it's now
-            * gone, then we'll be making a new call below.
-            * If there was previously a call and it's now different then
-            * the old call was freed and another thread running this routine
-            * has created a call on this channel. One of these two threads
-            * has a packet for the old call and the code below handles those
-            * cases.
-            */
-           if (call)
-               MUTEX_ENTER(&call->lock);
-       } else {
-           /* This packet can't be for this call. If the new call address is
-            * 0 then no call is running on this channel. If there is a call
-            * then, since this is a client connection we're getting data for
-            * it must be for the previous call.
-            */
-            if (rx_stats_active)
-               rx_atomic_inc(&rx_stats.spuriousPacketsRead);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
-           return np;
-       }
-    }
-#endif
-    currentCallNumber = conn->callNumber[channel];
 
-    if (type == RX_SERVER_CONNECTION) {        /* We're the server */
-       if (np->header.callNumber < currentCallNumber) {
-            if (rx_stats_active)
-               rx_atomic_inc(&rx_stats.spuriousPacketsRead);
-#ifdef RX_ENABLE_LOCKS
-           if (call)
-               MUTEX_EXIT(&call->lock);
-#endif
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
-           return np;
-       }
-       if (!call) {
-           MUTEX_ENTER(&conn->conn_call_lock);
-           call = rxi_NewCall(conn, channel);
-           MUTEX_EXIT(&conn->conn_call_lock);
-           *call->callNumber = np->header.callNumber;
+    if (call) {
+       MUTEX_ENTER(&call->lock);
+        currentCallNumber = conn->callNumber[channel];
+        MUTEX_EXIT(&conn->conn_call_lock);
+    } else if (type == RX_SERVER_CONNECTION) {  /* No call allocated */
+        call = conn->call[channel];
+        if (call) {
+            MUTEX_ENTER(&call->lock);
+            currentCallNumber = conn->callNumber[channel];
+            MUTEX_EXIT(&conn->conn_call_lock);
+        } else {
+            call = rxi_NewCall(conn, channel);  /* returns locked call */
+            *call->callNumber = currentCallNumber = np->header.callNumber;
+            MUTEX_EXIT(&conn->conn_call_lock);
 #ifdef RXDEBUG
-           if (np->header.callNumber == 0)
-               dpf(("RecPacket call 0 %d %s: %x.%u.%u.%u.%u.%u.%u flags %d, packet %"AFS_PTR_FMT" resend %d.%.06d len %d\n",
-                      np->header.serial, rx_packetTypes[np->header.type - 1], ntohl(conn->peer->host), ntohs(conn->peer->port),
-                      np->header.serial, np->header.epoch, np->header.cid, np->header.callNumber, np->header.seq,
-                      np->header.flags, np, np->retryTime.sec, np->retryTime.usec / 1000, np->length));
+            if (np->header.callNumber == 0)
+                dpf(("RecPacket call 0 %d %s: %x.%u.%u.%u.%u.%u.%u flags %d, packet %"AFS_PTR_FMT" len %d\n",
+                     np->header.serial, rx_packetTypes[np->header.type - 1], ntohl(conn->peer->host), ntohs(conn->peer->port),
+                     np->header.serial, np->header.epoch, np->header.cid, np->header.callNumber, np->header.seq,
+                     np->header.flags, np, np->length));
 #endif
-           call->state = RX_STATE_PRECALL;
-           clock_GetTime(&call->queueTime);
-           hzero(call->bytesSent);
-           hzero(call->bytesRcvd);
-           /*
-            * If the number of queued calls exceeds the overload
-            * threshold then abort this call.
-            */
-           if ((rx_BusyThreshold > 0) &&
-               (rx_atomic_read(&rx_nWaiting) > rx_BusyThreshold)) {
-               struct rx_packet *tp;
-
-               rxi_CallError(call, rx_BusyError);
-               tp = rxi_SendCallAbort(call, np, 1, 0);
-               MUTEX_EXIT(&call->lock);
-                MUTEX_ENTER(&rx_refcnt_mutex);
-               conn->refCount--;
-                MUTEX_EXIT(&rx_refcnt_mutex);
+            call->state = RX_STATE_PRECALL;
+            clock_GetTime(&call->queueTime);
+            hzero(call->bytesSent);
+            hzero(call->bytesRcvd);
+            /*
+             * If the number of queued calls exceeds the overload
+             * threshold then abort this call.
+             */
+            if ((rx_BusyThreshold > 0) &&
+                (rx_atomic_read(&rx_nWaiting) > rx_BusyThreshold)) {
+                struct rx_packet *tp;
+
+                rxi_CallError(call, rx_BusyError);
+                tp = rxi_SendCallAbort(call, np, 1, 0);
+                MUTEX_EXIT(&call->lock);
+               putConnection(conn);
                 if (rx_stats_active)
                     rx_atomic_inc(&rx_stats.nBusies);
-               return tp;
-           }
-           rxi_KeepAliveOn(call);
-       } else if (np->header.callNumber != currentCallNumber) {
+                return tp;
+            }
+            rxi_KeepAliveOn(call);
+        }
+    } else {    /* RX_CLIENT_CONNECTION and No call allocated */
+        /* This packet can't be for this call. If the new call address is
+         * 0 then no call is running on this channel. If there is a call
+         * then, since this is a client connection we're getting data for
+         * it must be for the previous call.
+         */
+        if (rx_stats_active)
+            rx_atomic_inc(&rx_stats.spuriousPacketsRead);
+       putConnection(conn);
+        return np;
+    }
+
+    /* There is a non-NULL locked call at this point */
+    if (type == RX_SERVER_CONNECTION) {        /* We're the server */
+        if (np->header.callNumber < currentCallNumber) {
+            MUTEX_EXIT(&call->lock);
+            if (rx_stats_active)
+                rx_atomic_inc(&rx_stats.spuriousPacketsRead);
+           putConnection(conn);
+            return np;
+        } else if (np->header.callNumber != currentCallNumber) {
            /* Wait until the transmit queue is idle before deciding
             * whether to reset the current call. Chances are that the
             * call will be in ether DALLY or HOLD state once the TQ_BUSY
@@ -3168,9 +3333,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
                 if (call->error) {
                     rxi_CallError(call, call->error);
                     MUTEX_EXIT(&call->lock);
-                    MUTEX_ENTER(&rx_refcnt_mutex);
-                    conn->refCount--;
-                    MUTEX_EXIT(&rx_refcnt_mutex);
+                   putConnection(conn);
                     return np;
                 }
             }
@@ -3185,19 +3348,22 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
                tp = rxi_SendSpecial(call, conn, np, RX_PACKET_TYPE_BUSY,
                                     NULL, 0, 1);
                MUTEX_EXIT(&call->lock);
-                MUTEX_ENTER(&rx_refcnt_mutex);
-               conn->refCount--;
-                MUTEX_EXIT(&rx_refcnt_mutex);
+               putConnection(conn);
                return tp;
            }
            rxi_ResetCall(call, 0);
+            /*
+             * The conn_call_lock is not held but no one else should be
+             * using this call channel while we are processing this incoming
+             * packet.  This assignment should be safe.
+             */
            *call->callNumber = np->header.callNumber;
 #ifdef RXDEBUG
            if (np->header.callNumber == 0)
-               dpf(("RecPacket call 0 %d %s: %x.%u.%u.%u.%u.%u.%u flags %d, packet %"AFS_PTR_FMT" resend %d.%06d len %d\n",
+               dpf(("RecPacket call 0 %d %s: %x.%u.%u.%u.%u.%u.%u flags %d, packet %"AFS_PTR_FMT" len %d\n",
                       np->header.serial, rx_packetTypes[np->header.type - 1], ntohl(conn->peer->host), ntohs(conn->peer->port),
                       np->header.serial, np->header.epoch, np->header.cid, np->header.callNumber, np->header.seq,
-                      np->header.flags, np, np->retryTime.sec, np->retryTime.usec, np->length));
+                      np->header.flags, np, np->length));
 #endif
            call->state = RX_STATE_PRECALL;
            clock_GetTime(&call->queueTime);
@@ -3214,9 +3380,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
                rxi_CallError(call, rx_BusyError);
                tp = rxi_SendCallAbort(call, np, 1, 0);
                MUTEX_EXIT(&call->lock);
-                MUTEX_ENTER(&rx_refcnt_mutex);
-               conn->refCount--;
-                MUTEX_EXIT(&rx_refcnt_mutex);
+               putConnection(conn);
                 if (rx_stats_active)
                     rx_atomic_inc(&rx_stats.nBusies);
                return tp;
@@ -3227,45 +3391,29 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
        }
     } else {                   /* we're the client */
        /* Ignore all incoming acknowledgements for calls in DALLY state */
-       if (call && (call->state == RX_STATE_DALLY)
+       if ((call->state == RX_STATE_DALLY)
            && (np->header.type == RX_PACKET_TYPE_ACK)) {
             if (rx_stats_active)
                 rx_atomic_inc(&rx_stats.ignorePacketDally);
-#ifdef  RX_ENABLE_LOCKS
-           if (call) {
-               MUTEX_EXIT(&call->lock);
-           }
-#endif
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+            MUTEX_EXIT(&call->lock);
+           putConnection(conn);
            return np;
        }
 
        /* Ignore anything that's not relevant to the current call.  If there
         * isn't a current call, then no packet is relevant. */
-       if (!call || (np->header.callNumber != currentCallNumber)) {
+       if (np->header.callNumber != currentCallNumber) {
             if (rx_stats_active)
                 rx_atomic_inc(&rx_stats.spuriousPacketsRead);
-#ifdef RX_ENABLE_LOCKS
-           if (call) {
-               MUTEX_EXIT(&call->lock);
-           }
-#endif
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+            MUTEX_EXIT(&call->lock);
+           putConnection(conn);
            return np;
        }
        /* If the service security object index stamped in the packet does not
         * match the connection's security index, ignore the packet */
        if (np->header.securityIndex != conn->securityIndex) {
-#ifdef RX_ENABLE_LOCKS
            MUTEX_EXIT(&call->lock);
-#endif
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            return np;
        }
 
@@ -3286,9 +3434,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
 #ifdef RX_ENABLE_LOCKS
                rxi_SetAcksInTransmitQueue(call);
 #else
-                MUTEX_ENTER(&rx_refcnt_mutex);
-               conn->refCount--;
-                MUTEX_EXIT(&rx_refcnt_mutex);
+               putConnection(conn);
                return np;      /* xmitting; drop packet */
 #endif
            } else {
@@ -3316,9 +3462,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
                     if (rx_stats_active)
                         rx_atomic_inc(&rx_stats.spuriousPacketsRead);
                    MUTEX_EXIT(&call->lock);
-                    MUTEX_ENTER(&rx_refcnt_mutex);
-                   conn->refCount--;
-                    MUTEX_EXIT(&rx_refcnt_mutex);
+                   putConnection(conn);
                    return np;
                }
            }
@@ -3380,9 +3524,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
        dpf(("rxi_ReceivePacket ABORT rx_DataOf = %d\n", errdata));
        rxi_CallError(call, errdata);
        MUTEX_EXIT(&call->lock);
-        MUTEX_ENTER(&rx_refcnt_mutex);
-       conn->refCount--;
-        MUTEX_EXIT(&rx_refcnt_mutex);
+       putConnection(conn);
        return np;              /* xmitting; drop packet */
     }
     case RX_PACKET_TYPE_BUSY: {
@@ -3399,9 +3541,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
        MUTEX_EXIT(&call->lock);
        MUTEX_EXIT(&conn->conn_call_lock);
 
-       MUTEX_ENTER(&rx_refcnt_mutex);
-       conn->refCount--;
-       MUTEX_EXIT(&rx_refcnt_mutex);
+       putConnection(conn);
        return np;
     }
 
@@ -3424,9 +3564,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
            break;
 #else /* RX_ENABLE_LOCKS */
            MUTEX_EXIT(&call->lock);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           putConnection(conn);
            return np;          /* xmitting; drop packet */
 #endif /* RX_ENABLE_LOCKS */
        }
@@ -3448,9 +3586,7 @@ rxi_ReceivePacket(struct rx_packet *np, osi_socket socket,
     /* we've received a legit packet, so the channel is not busy */
     call->flags &= ~RX_CALL_PEER_BUSY;
     MUTEX_EXIT(&call->lock);
-    MUTEX_ENTER(&rx_refcnt_mutex);
-    conn->refCount--;
-    MUTEX_EXIT(&rx_refcnt_mutex);
+    putConnection(conn);
     return np;
 }
 
@@ -3505,8 +3641,35 @@ TooLow(struct rx_packet *ap, struct rx_call *acall)
 }
 #endif /* KERNEL */
 
+/*!
+ * Clear the attach wait flag on a connection and proceed.
+ *
+ * Any processing waiting for a connection to be attached should be
+ * unblocked. We clear the flag and do any other needed tasks.
+ *
+ * @param[in] conn
+ *      the conn to unmark waiting for attach
+ *
+ * @pre conn's conn_data_lock must be locked before calling this function
+ *
+ */
+static void
+rxi_ConnClearAttachWait(struct rx_connection *conn)
+{
+    /* Indicate that rxi_CheckReachEvent is no longer running by
+     * clearing the flag.  Must be atomic under conn_data_lock to
+     * avoid a new call slipping by: rxi_CheckConnReach holds
+     * conn_data_lock while checking RX_CONN_ATTACHWAIT.
+     */
+    conn->flags &= ~RX_CONN_ATTACHWAIT;
+    if (conn->flags & RX_CONN_NAT_PING) {
+       conn->flags &= ~RX_CONN_NAT_PING;
+       rxi_ScheduleNatKeepAliveEvent(conn);
+    }
+}
+
 static void
-rxi_CheckReachEvent(struct rxevent *event, void *arg1, void *arg2)
+rxi_CheckReachEvent(struct rxevent *event, void *arg1, void *arg2, int dummy)
 {
     struct rx_connection *conn = arg1;
     struct rx_call *acall = arg2;
@@ -3515,12 +3678,15 @@ rxi_CheckReachEvent(struct rxevent *event, void *arg1, void *arg2)
     int i, waiting;
 
     MUTEX_ENTER(&conn->conn_data_lock);
-    conn->checkReachEvent = NULL;
+
+    if (event) {
+       rxevent_Put(conn->checkReachEvent);
+       conn->checkReachEvent = NULL;
+    }
+
     waiting = conn->flags & RX_CONN_ATTACHWAIT;
     if (event) {
-        MUTEX_ENTER(&rx_refcnt_mutex);
-       conn->refCount--;
-        MUTEX_EXIT(&rx_refcnt_mutex);
+       putConnection(conn);
     }
     MUTEX_EXIT(&conn->conn_data_lock);
 
@@ -3536,12 +3702,7 @@ rxi_CheckReachEvent(struct rxevent *event, void *arg1, void *arg2)
                }
            }
            if (!call)
-               /* Indicate that rxi_CheckReachEvent is no longer running by
-                * clearing the flag.  Must be atomic under conn_data_lock to
-                * avoid a new call slipping by: rxi_CheckConnReach holds
-                * conn_data_lock while checking RX_CONN_ATTACHWAIT.
-                */
-               conn->flags &= ~RX_CONN_ATTACHWAIT;
+               rxi_ConnClearAttachWait(conn);
            MUTEX_EXIT(&conn->conn_data_lock);
            MUTEX_EXIT(&conn->conn_call_lock);
        }
@@ -3561,9 +3722,9 @@ rxi_CheckReachEvent(struct rxevent *event, void *arg1, void *arg2)
                 MUTEX_ENTER(&rx_refcnt_mutex);
                conn->refCount++;
                 MUTEX_EXIT(&rx_refcnt_mutex);
-               conn->checkReachEvent =
-                   rxevent_PostNow(&when, &now, rxi_CheckReachEvent, conn,
-                                   NULL);
+               conn->checkReachEvent = rxevent_Post(&when, &now,
+                                                    rxi_CheckReachEvent, conn,
+                                                    NULL, 0);
            }
            MUTEX_EXIT(&conn->conn_data_lock);
        }
@@ -3595,7 +3756,7 @@ rxi_CheckConnReach(struct rx_connection *conn, struct rx_call *call)
     conn->flags |= RX_CONN_ATTACHWAIT;
     MUTEX_EXIT(&conn->conn_data_lock);
     if (!conn->checkReachEvent)
-       rxi_CheckReachEvent(NULL, conn, call);
+       rxi_CheckReachEvent(NULL, conn, call, 0);
 
     return 1;
 }
@@ -3641,7 +3802,6 @@ rxi_ReceiveDataPacket(struct rx_call *call,
     afs_uint32 serial=0, flags=0;
     int isFirst;
     struct rx_packet *tnp;
-    struct clock when, now;
     if (rx_stats_active)
         rx_atomic_inc(&rx_stats.dataPacketsRead);
 
@@ -3658,22 +3818,11 @@ rxi_ReceiveDataPacket(struct rx_call *call,
        call->rprev = np->header.serial;
        rxi_calltrace(RX_TRACE_DROP, call);
        dpf(("packet %"AFS_PTR_FMT" dropped on receipt - quota problems\n", np));
-       if (rxi_doreclaim)
-           rxi_ClearReceiveQueue(call);
-       clock_GetTime(&now);
-       when = now;
-       clock_Add(&when, &rx_softAckDelay);
-       if (!call->delayedAckEvent
-           || clock_Gt(&call->delayedAckEvent->eventTime, &when)) {
-           rxevent_Cancel(call->delayedAckEvent, call,
-                          RX_CALL_REFCOUNT_DELAY);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           CALL_HOLD(call, RX_CALL_REFCOUNT_DELAY);
-            MUTEX_EXIT(&rx_refcnt_mutex);
+        /* We used to clear the receive queue here, in an attempt to free
+         * packets. However this is unsafe if the queue has received a
+         * soft ACK for the final packet */
+       rxi_PostDelayedAckEvent(call, &rx_softAckDelay);
 
-           call->delayedAckEvent =
-               rxevent_PostNow(&when, &now, rxi_SendDelayedAck, call, 0);
-       }
        /* we've damaged this call already, might as well do it in. */
        return np;
     }
@@ -3725,7 +3874,7 @@ rxi_ReceiveDataPacket(struct rx_call *call,
                 if (rx_stats_active)
                     rx_atomic_inc(&rx_stats.dupPacketsRead);
                dpf(("packet %"AFS_PTR_FMT" dropped on receipt - duplicate\n", np));
-               rxevent_Cancel(call->delayedAckEvent, call,
+               rxevent_Cancel(&call->delayedAckEvent, call,
                               RX_CALL_REFCOUNT_DELAY);
                np = rxi_SendAck(call, np, serial, RX_ACK_DUPLICATE, istack);
                ackNeeded = 0;
@@ -3815,7 +3964,7 @@ rxi_ReceiveDataPacket(struct rx_call *call,
            if (seq < call->rnext) {
                 if (rx_stats_active)
                     rx_atomic_inc(&rx_stats.dupPacketsRead);
-               rxevent_Cancel(call->delayedAckEvent, call,
+               rxevent_Cancel(&call->delayedAckEvent, call,
                               RX_CALL_REFCOUNT_DELAY);
                np = rxi_SendAck(call, np, serial, RX_ACK_DUPLICATE, istack);
                ackNeeded = 0;
@@ -3827,7 +3976,7 @@ rxi_ReceiveDataPacket(struct rx_call *call,
             * accomodated by the current window, then send a negative
             * acknowledge and drop the packet */
            if ((call->rnext + call->rwind) <= seq) {
-               rxevent_Cancel(call->delayedAckEvent, call,
+               rxevent_Cancel(&call->delayedAckEvent, call,
                               RX_CALL_REFCOUNT_DELAY);
                np = rxi_SendAck(call, np, serial, RX_ACK_EXCEEDS_WINDOW,
                                 istack);
@@ -3843,7 +3992,7 @@ rxi_ReceiveDataPacket(struct rx_call *call,
                if (seq == tp->header.seq) {
                     if (rx_stats_active)
                         rx_atomic_inc(&rx_stats.dupPacketsRead);
-                   rxevent_Cancel(call->delayedAckEvent, call,
+                   rxevent_Cancel(&call->delayedAckEvent, call,
                                   RX_CALL_REFCOUNT_DELAY);
                    np = rxi_SendAck(call, np, serial, RX_ACK_DUPLICATE,
                                     istack);
@@ -3951,49 +4100,25 @@ rxi_ReceiveDataPacket(struct rx_call *call,
      * Send an ack when requested by the peer, or once every
      * rxi_SoftAckRate packets until the last packet has been
      * received. Always send a soft ack for the last packet in
-     * the server's reply.
-     *
-     * If we have received all of the packets for the call
-     * immediately send an RX_PACKET_TYPE_ACKALL packet so that
-     * the peer can empty its packet queue and cancel all resend
-     * events.
-     */
-    if (call->flags & RX_CALL_RECEIVE_DONE) {
-        rxevent_Cancel(call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
-        rxi_AckAll(NULL, call, 0);
-    } else if (ackNeeded) {
-       rxevent_Cancel(call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
+     * the server's reply. */
+    if (ackNeeded) {
+       rxevent_Cancel(&call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
        np = rxi_SendAck(call, np, serial, ackNeeded, istack);
     } else if (call->nSoftAcks > (u_short) rxi_SoftAckRate) {
-       rxevent_Cancel(call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
+       rxevent_Cancel(&call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
        np = rxi_SendAck(call, np, serial, RX_ACK_IDLE, istack);
     } else if (call->nSoftAcks) {
-       clock_GetTime(&now);
-       when = now;
-       if (haveLast && !(flags & RX_CLIENT_INITIATED)) {
-           clock_Add(&when, &rx_lastAckDelay);
-       } else {
-           clock_Add(&when, &rx_softAckDelay);
-       }
-       if (!call->delayedAckEvent
-           || clock_Gt(&call->delayedAckEvent->eventTime, &when)) {
-           rxevent_Cancel(call->delayedAckEvent, call,
-                          RX_CALL_REFCOUNT_DELAY);
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           CALL_HOLD(call, RX_CALL_REFCOUNT_DELAY);
-            MUTEX_EXIT(&rx_refcnt_mutex);
-           call->delayedAckEvent =
-               rxevent_PostNow(&when, &now, rxi_SendDelayedAck, call, 0);
-       }
+       if (haveLast && !(flags & RX_CLIENT_INITIATED))
+           rxi_PostDelayedAckEvent(call, &rx_lastAckDelay);
+       else
+           rxi_PostDelayedAckEvent(call, &rx_softAckDelay);
+    } else if (call->flags & RX_CALL_RECEIVE_DONE) {
+       rxevent_Cancel(&call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
     }
 
     return np;
 }
 
-#ifdef ADAPT_WINDOW
-static void rxi_ComputeRate();
-#endif
-
 static void
 rxi_UpdatePeerReach(struct rx_connection *conn, struct rx_call *acall)
 {
@@ -4007,7 +4132,7 @@ rxi_UpdatePeerReach(struct rx_connection *conn, struct rx_call *acall)
     if (conn->flags & RX_CONN_ATTACHWAIT) {
        int i;
 
-       conn->flags &= ~RX_CONN_ATTACHWAIT;
+       rxi_ConnClearAttachWait(conn);
        MUTEX_EXIT(&conn->conn_data_lock);
 
        for (i = 0; i < RX_MAXCALLS; i++) {
@@ -4200,29 +4325,45 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
      * much */
     peer->outPacketSkew = skew;
 
-    /* Check for packets that no longer need to be transmitted, and
-     * discard them.  This only applies to packets positively
-     * acknowledged as having been sent to the peer's upper level.
-     * All other packets must be retained.  So only packets with
-     * sequence numbers < ap->firstPacket are candidates. */
 
     clock_GetTime(&now);
 
-    for (queue_Scan(&call->tq, tp, nxp, rx_packet)) {
-       if (tp->header.seq >= first)
-           break;
+    /* The transmit queue splits into 4 sections.
+     *
+     * The first section is packets which have now been acknowledged
+     * by a window size change in the ack. These have reached the
+     * application layer, and may be discarded. These are packets
+     * with sequence numbers < ap->firstPacket.
+     *
+     * The second section is packets which have sequence numbers in
+     * the range ap->firstPacket to ap->firstPacket + ap->nAcks. The
+     * contents of the packet's ack array determines whether these
+     * packets are acknowledged or not.
+     *
+     * The third section is packets which fall above the range
+     * addressed in the ack packet. These have not yet been received
+     * by the peer.
+     *
+     * The four section is packets which have not yet been transmitted.
+     * These packets will have a header.serial of 0.
+     */
+
+    /* First section - implicitly acknowledged packets that can be
+     * disposed of
+     */
+
+    tp = queue_First(&call->tq, rx_packet);
+    while(!queue_IsEnd(&call->tq, tp) && tp->header.seq < first) {
+       struct rx_packet *next;
+
+       next = queue_Next(tp, rx_packet);
        call->tfirst = tp->header.seq + 1;
 
        if (!(tp->flags & RX_PKTFLAG_ACKED)) {
            newAckCount++;
-
-           rxi_ComputeRoundTripTime(tp, ap, call->conn->peer, &now);
+           rxi_ComputeRoundTripTime(tp, ap, call, peer, &now);
        }
 
-#ifdef ADAPT_WINDOW
-       rxi_ComputeRate(call->conn->peer, call, p, np, ap->reason);
-#endif
-
 #ifdef AFS_GLOBAL_RXLOCK_KERNEL
        /* XXX Hack. Because we have to release the global rx lock when sending
         * packets (osi_NetSend) we drop all acks while we're traversing the tq
@@ -4252,18 +4393,15 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
 #endif /* RXDEBUG_PACKET */
            rxi_FreePacket(tp); /* rxi_FreePacket mustn't wake up anyone, preemptively. */
        }
+       tp = next;
     }
 
-#ifdef ADAPT_WINDOW
-    /* Give rate detector a chance to respond to ping requests */
-    if (ap->reason == RX_ACK_PING_RESPONSE) {
-       rxi_ComputeRate(peer, call, 0, np, ap->reason);
-    }
-#endif
-
     /* N.B. we don't turn off any timers here.  They'll go away by themselves, anyway */
 
-    /* Now go through explicit acks/nacks and record the results in
+    /* Second section of the queue - packets for which we are receiving
+     * soft ACKs
+     *
+     * Go through the explicit acks/nacks and record the results in
      * the waiting packets.  These are packets that can't be released
      * yet, even with a positive acknowledge.  This positive
      * acknowledge only means the packet has been received by the
@@ -4273,76 +4411,36 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
      * because this packet was out of sequence) */
 
     call->nSoftAcked = 0;
-    for (missing = 0, queue_Scan(&call->tq, tp, nxp, rx_packet)) {
-
-       /* Set the acknowledge flag per packet based on the
+    missing = 0;
+    while (!queue_IsEnd(&call->tq, tp) && tp->header.seq < first + nAcks) {
+       /* Set the acknowledge flag per packet based on the
         * information in the ack packet. An acknowlegded packet can
         * be downgraded when the server has discarded a packet it
         * soacked previously, or when an ack packet is received
         * out of sequence. */
-       if (tp->header.seq < first) {
-           /* Implicit ack information */
+       if (ap->acks[tp->header.seq - first] == RX_ACK_TYPE_ACK) {
            if (!(tp->flags & RX_PKTFLAG_ACKED)) {
                newAckCount++;
+               tp->flags |= RX_PKTFLAG_ACKED;
+               rxi_ComputeRoundTripTime(tp, ap, call, peer, &now);
            }
-           tp->flags |= RX_PKTFLAG_ACKED;
-       } else if (tp->header.seq < first + nAcks) {
-           /* Explicit ack information:  set it in the packet appropriately */
-           if (ap->acks[tp->header.seq - first] == RX_ACK_TYPE_ACK) {
-               if (!(tp->flags & RX_PKTFLAG_ACKED)) {
-                   newAckCount++;
-                   tp->flags |= RX_PKTFLAG_ACKED;
-
-                   rxi_ComputeRoundTripTime(tp, ap, call->conn->peer, &now);
-#ifdef ADAPT_WINDOW
-                   rxi_ComputeRate(call->conn->peer, call, tp, np,
-                                   ap->reason);
-#endif
-               }
-               if (missing) {
-                   nNacked++;
-               } else {
-                   call->nSoftAcked++;
-               }
-           } else /* RX_ACK_TYPE_NACK */ {
-               tp->flags &= ~RX_PKTFLAG_ACKED;
-               missing = 1;
-           }
-       } else {
-           if (tp->flags & RX_PKTFLAG_ACKED) {
-               tp->flags &= ~RX_PKTFLAG_ACKED;
-               missing = 1;
+           if (missing) {
+               nNacked++;
+           } else {
+               call->nSoftAcked++;
            }
+       } else /* RX_ACK_TYPE_NACK */ {
+           tp->flags &= ~RX_PKTFLAG_ACKED;
+           missing = 1;
        }
 
-        /*
-         * Following the suggestion of Phil Kern, we back off the peer's
-         * timeout value for future packets until a successful response
-         * is received for an initial transmission.
-         */
-        if (missing && !peer->backedOff) {
-            struct clock c = peer->timeout;
-            struct clock max_to = {3, 0};
-
-            clock_Add(&peer->timeout, &c);
-            if (clock_Gt(&peer->timeout, &max_to))
-                peer->timeout = max_to;
-            peer->backedOff = 1;
-        }
-
-       /* If packet isn't yet acked, and it has been transmitted at least
-        * once, reset retransmit time using latest timeout
-        * ie, this should readjust the retransmit timer for all outstanding
-        * packets...  So we don't just retransmit when we should know better*/
-
-       if (!(tp->flags & RX_PKTFLAG_ACKED) && !clock_IsZero(&tp->retryTime)) {
-            tp->retryTime = tp->timeSent;
-           clock_Add(&tp->retryTime, &peer->timeout);
-           /* shift by eight because one quarter-sec ~ 256 milliseconds */
-           clock_Addmsec(&(tp->retryTime), ((afs_uint32) tp->backoff) << 8);
-       }
+       tp = queue_Next(tp, rx_packet);
     }
 
+    /* We don't need to take any action with the 3rd or 4th section in the
+     * queue - they're not addressed by the contents of this ACK packet.
+     */
+
     /* If the window has been extended by this acknowledge packet,
      * then wakeup a sender waiting in alloc for window space, or try
      * sending packets now, if he's been sitting on packets due to
@@ -4484,8 +4582,15 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
        call->nNacks = 0;
     }
 
+    /* If the packet contained new acknowledgements, rather than just
+     * being a duplicate of one we have previously seen, then we can restart
+     * the RTT timer
+     */
+    if (newAckCount > 0)
+       rxi_rto_packet_acked(call, istack);
+
     if (call->flags & RX_CALL_FAST_RECOVER) {
-       if (nNacked) {
+       if (newAckCount == 0) {
            call->cwind = MIN((int)(call->cwind + 1), rx_maxSendWindow);
        } else {
            call->flags &= ~RX_CALL_FAST_RECOVER;
@@ -4496,17 +4601,6 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
        call->nCwindAcks = 0;
     } else if (nNacked && call->nNacks >= (u_short) rx_nackThreshold) {
        /* Three negative acks in a row trigger congestion recovery */
-#ifdef  AFS_GLOBAL_RXLOCK_KERNEL
-       MUTEX_EXIT(&peer->peer_lock);
-       if (call->flags & RX_CALL_FAST_RECOVER_WAIT) {
-           /* someone else is waiting to start recovery */
-           return np;
-       }
-       call->flags |= RX_CALL_FAST_RECOVER_WAIT;
-       rxi_WaitforTQBusy(call);
-       MUTEX_ENTER(&peer->peer_lock);
-#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
-       call->flags &= ~RX_CALL_FAST_RECOVER_WAIT;
        call->flags |= RX_CALL_FAST_RECOVER;
        call->ssthresh = MAX(4, MIN((int)call->cwind, (int)call->twind)) >> 1;
        call->cwind =
@@ -4520,12 +4614,15 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
        peer->nDgramPackets = call->nDgramPackets;
        peer->congestSeq++;
        call->congestSeq = peer->congestSeq;
+
        /* Reset the resend times on the packets that were nacked
-        * so we will retransmit as soon as the window permits*/
+        * so we will retransmit as soon as the window permits
+        */
+
        for (acked = 0, queue_ScanBackwards(&call->tq, tp, nxp, rx_packet)) {
            if (acked) {
                if (!(tp->flags & RX_PKTFLAG_ACKED)) {
-                   clock_Zero(&tp->retryTime);
+                   tp->flags &= ~RX_PKTFLAG_SENT;
                }
            } else if (tp->flags & RX_PKTFLAG_ACKED) {
                acked = 1;
@@ -4581,9 +4678,9 @@ rxi_ReceiveAckPacket(struct rx_call *call, struct rx_packet *np,
        && call->tfirst + call->nSoftAcked >= call->tnext) {
        call->state = RX_STATE_DALLY;
        rxi_ClearTransmitQueue(call, 0);
-        rxevent_Cancel(call->keepAliveEvent, call, RX_CALL_REFCOUNT_ALIVE);
+        rxevent_Cancel(&call->keepAliveEvent, call, RX_CALL_REFCOUNT_ALIVE);
     } else if (!queue_IsEmpty(&call->tq)) {
-       rxi_Start(0, call, 0, istack);
+       rxi_Start(call, istack);
     }
     return np;
 }
@@ -4719,7 +4816,7 @@ rxi_AttachServerProc(struct rx_call *call,
            queue_Append(&rx_incomingCallQueue, call);
        }
     } else {
-       sq = queue_First(&rx_idleServerQueue, rx_serverQueueEntry);
+       sq = queue_Last(&rx_idleServerQueue, rx_serverQueueEntry);
 
        /* If hot threads are enabled, and both newcallp and sq->socketp
         * are non-null, then this thread will process the call, and the
@@ -4731,9 +4828,7 @@ rxi_AttachServerProc(struct rx_call *call,
            *tnop = sq->tno;
            *sq->socketp = socket;
            clock_GetTime(&call->startTime);
-            MUTEX_ENTER(&rx_refcnt_mutex);
            CALL_HOLD(call, RX_CALL_REFCOUNT_BEGIN);
-            MUTEX_EXIT(&rx_refcnt_mutex);
        } else {
            sq->newcall = call;
        }
@@ -4790,42 +4885,48 @@ rxi_AckAll(struct rxevent *event, struct rx_call *call, char *dummy)
 #ifdef RX_ENABLE_LOCKS
     if (event) {
        MUTEX_ENTER(&call->lock);
+       rxevent_Put(call->delayedAckEvent);
        call->delayedAckEvent = NULL;
-        MUTEX_ENTER(&rx_refcnt_mutex);
        CALL_RELE(call, RX_CALL_REFCOUNT_ACKALL);
-        MUTEX_EXIT(&rx_refcnt_mutex);
     }
     rxi_SendSpecial(call, call->conn, (struct rx_packet *)0,
                    RX_PACKET_TYPE_ACKALL, NULL, 0, 0);
+    call->flags |= RX_CALL_ACKALL_SENT;
     if (event)
        MUTEX_EXIT(&call->lock);
 #else /* RX_ENABLE_LOCKS */
-    if (event)
+    if (event) {
+       rxevent_Put(call->delayedAckEvent);
        call->delayedAckEvent = NULL;
+    }
     rxi_SendSpecial(call, call->conn, (struct rx_packet *)0,
                    RX_PACKET_TYPE_ACKALL, NULL, 0, 0);
+    call->flags |= RX_CALL_ACKALL_SENT;
 #endif /* RX_ENABLE_LOCKS */
 }
 
 void
-rxi_SendDelayedAck(struct rxevent *event, void *arg1, void *unused)
+rxi_SendDelayedAck(struct rxevent *event, void *arg1, void *unused1,
+                  int unused2)
 {
     struct rx_call *call = arg1;
 #ifdef RX_ENABLE_LOCKS
     if (event) {
        MUTEX_ENTER(&call->lock);
-       if (event == call->delayedAckEvent)
+       if (event == call->delayedAckEvent) {
+           rxevent_Put(call->delayedAckEvent);
            call->delayedAckEvent = NULL;
-        MUTEX_ENTER(&rx_refcnt_mutex);
+       }
        CALL_RELE(call, RX_CALL_REFCOUNT_DELAY);
-        MUTEX_EXIT(&rx_refcnt_mutex);
     }
     (void)rxi_SendAck(call, 0, 0, RX_ACK_DELAY, 0);
     if (event)
        MUTEX_EXIT(&call->lock);
 #else /* RX_ENABLE_LOCKS */
-    if (event)
+    if (event) {
+       rxevent_Put(call->delayedAckEvent);
        call->delayedAckEvent = NULL;
+    }
     (void)rxi_SendAck(call, 0, 0, RX_ACK_DELAY, 0);
 #endif /* RX_ENABLE_LOCKS */
 }
@@ -4850,7 +4951,8 @@ rxi_SetAcksInTransmitQueue(struct rx_call *call)
        call->flags |= RX_CALL_TQ_SOME_ACKED;
     }
 
-    rxevent_Cancel(call->resendEvent, call, RX_CALL_REFCOUNT_RESEND);
+    rxi_rto_cancel(call);
+
     call->tfirst = call->tnext;
     call->nSoftAcked = 0;
 
@@ -4894,7 +4996,7 @@ rxi_ClearTransmitQueue(struct rx_call *call, int force)
     }
 #endif /* AFS_GLOBAL_RXLOCK_KERNEL */
 
-    rxevent_Cancel(call->resendEvent, call, RX_CALL_REFCOUNT_RESEND);
+    rxi_rto_cancel(call);
     call->tfirst = call->tnext;        /* implicitly acknowledge all data already sent */
     call->nSoftAcked = 0;
 
@@ -4934,28 +5036,37 @@ struct rx_packet *
 rxi_SendCallAbort(struct rx_call *call, struct rx_packet *packet,
                  int istack, int force)
 {
-    afs_int32 error;
+    afs_int32 error, cerror;
     struct clock when, now;
 
     if (!call->error)
        return packet;
 
+    switch (call->error) {
+    case RX_CALL_IDLE:
+    case RX_CALL_BUSY:
+        cerror = RX_CALL_TIMEOUT;
+        break;
+    default:
+        cerror = call->error;
+    }
+
     /* Clients should never delay abort messages */
     if (rx_IsClientConn(call->conn))
        force = 1;
 
-    if (call->abortCode != call->error) {
-       call->abortCode = call->error;
+    if (call->abortCode != cerror) {
+       call->abortCode = cerror;
        call->abortCount = 0;
     }
 
     if (force || rxi_callAbortThreshhold == 0
        || call->abortCount < rxi_callAbortThreshhold) {
        if (call->delayedAbortEvent) {
-           rxevent_Cancel(call->delayedAbortEvent, call,
+           rxevent_Cancel(&call->delayedAbortEvent, call,
                           RX_CALL_REFCOUNT_ABORT);
        }
-       error = htonl(call->error);
+       error = htonl(cerror);
        call->abortCount++;
        packet =
            rxi_SendSpecial(call, call->conn, packet, RX_PACKET_TYPE_ABORT,
@@ -4964,11 +5075,9 @@ rxi_SendCallAbort(struct rx_call *call, struct rx_packet *packet,
        clock_GetTime(&now);
        when = now;
        clock_Addmsec(&when, rxi_callAbortDelay);
-        MUTEX_ENTER(&rx_refcnt_mutex);
        CALL_HOLD(call, RX_CALL_REFCOUNT_ABORT);
-        MUTEX_EXIT(&rx_refcnt_mutex);
        call->delayedAbortEvent =
-           rxevent_PostNow(&when, &now, rxi_SendDelayedCallAbort, call, 0);
+           rxevent_Post(&when, &now, rxi_SendDelayedCallAbort, call, 0, 0);
     }
     return packet;
 }
@@ -4998,9 +5107,8 @@ rxi_SendConnectionAbort(struct rx_connection *conn,
 
     if (force || rxi_connAbortThreshhold == 0
        || conn->abortCount < rxi_connAbortThreshhold) {
-       if (conn->delayedAbortEvent) {
-           rxevent_Cancel(conn->delayedAbortEvent, (struct rx_call *)0, 0);
-       }
+
+       rxevent_Cancel(&conn->delayedAbortEvent, NULL, 0);
        error = htonl(conn->error);
        conn->abortCount++;
        MUTEX_EXIT(&conn->conn_data_lock);
@@ -5014,7 +5122,7 @@ rxi_SendConnectionAbort(struct rx_connection *conn,
        when = now;
        clock_Addmsec(&when, rxi_connAbortDelay);
        conn->delayedAbortEvent =
-           rxevent_PostNow(&when, &now, rxi_SendDelayedConnAbort, conn, 0);
+           rxevent_Post(&when, &now, rxi_SendDelayedConnAbort, conn, NULL, 0);
     }
     return packet;
 }
@@ -5034,17 +5142,12 @@ rxi_ConnectionError(struct rx_connection *conn,
        dpf(("rxi_ConnectionError conn %"AFS_PTR_FMT" error %d\n", conn, error));
 
        MUTEX_ENTER(&conn->conn_data_lock);
-       if (conn->challengeEvent)
-           rxevent_Cancel(conn->challengeEvent, (struct rx_call *)0, 0);
-       if (conn->natKeepAliveEvent)
-           rxevent_Cancel(conn->natKeepAliveEvent, (struct rx_call *)0, 0);
+       rxevent_Cancel(&conn->challengeEvent, NULL, 0);
+       rxevent_Cancel(&conn->natKeepAliveEvent, NULL, 0);
        if (conn->checkReachEvent) {
-           rxevent_Cancel(conn->checkReachEvent, (struct rx_call *)0, 0);
-           conn->checkReachEvent = 0;
-           conn->flags &= ~RX_CONN_ATTACHWAIT;
-            MUTEX_ENTER(&rx_refcnt_mutex);
-           conn->refCount--;
-            MUTEX_EXIT(&rx_refcnt_mutex);
+           rxevent_Cancel(&conn->checkReachEvent, NULL, 0);
+           conn->flags &= ~(RX_CONN_ATTACHWAIT|RX_CONN_NAT_PING);
+           putConnection(conn);
        }
        MUTEX_EXIT(&conn->conn_data_lock);
        for (i = 0; i < RX_MAXCALLS; i++) {
@@ -5102,9 +5205,6 @@ rxi_CallError(struct rx_call *call, afs_int32 error)
  * nFree are not reset, since these fields are manipulated by
  * unprotected macros, and may only be reset by non-interrupting code.
  */
-#ifdef ADAPT_WINDOW
-/* this code requires that call->conn be set properly as a pre-condition. */
-#endif /* ADAPT_WINDOW */
 
 void
 rxi_ResetCall(struct rx_call *call, int newcall)
@@ -5124,12 +5224,11 @@ rxi_ResetCall(struct rx_call *call, int newcall)
        call->arrivalProc = (void (*)())0;
     }
 
-    if (call->growMTUEvent)
-       rxevent_Cancel(call->growMTUEvent, call,
-                      RX_CALL_REFCOUNT_ALIVE);
+
+    rxevent_Cancel(&call->growMTUEvent, call, RX_CALL_REFCOUNT_ALIVE);
 
     if (call->delayedAbortEvent) {
-       rxevent_Cancel(call->delayedAbortEvent, call, RX_CALL_REFCOUNT_ABORT);
+       rxevent_Cancel(&call->delayedAbortEvent, call, RX_CALL_REFCOUNT_ABORT);
        packet = rxi_AllocPacket(RX_PACKET_CLASS_SPECIAL);
        if (packet) {
            rxi_SendCallAbort(call, packet, 0, 1);
@@ -5165,6 +5264,11 @@ rxi_ResetCall(struct rx_call *call, int newcall)
     call->ssthresh = rx_maxSendWindow;
     call->nDgramPackets = peer->nDgramPackets;
     call->congestSeq = peer->congestSeq;
+    call->rtt = peer->rtt;
+    call->rtt_dev = peer->rtt_dev;
+    clock_Zero(&call->rto);
+    clock_Addmsec(&call->rto,
+                 MAX(((call->rtt >> 3) + call->rtt_dev), rx_minPeerTimeout) + 200);
     MUTEX_EXIT(&peer->peer_lock);
 
     flags = call->flags;
@@ -5178,9 +5282,13 @@ rxi_ResetCall(struct rx_call *call, int newcall)
     }
     call->flags = 0;
 
-    if ((flags & RX_CALL_PEER_BUSY)) {
+    if (!newcall && (flags & RX_CALL_PEER_BUSY)) {
        /* The call channel is still busy; resetting the call doesn't change
-        * that */
+        * that. However, if 'newcall' is set, we are processing a call
+        * structure that has either been recycled from the free list, or has
+        * been newly allocated. So, RX_CALL_PEER_BUSY is not relevant if
+        * 'newcall' is set, since it describes a completely different call
+        * channel which we do not care about. */
        call->flags |= RX_CALL_PEER_BUSY;
     }
 
@@ -5254,7 +5362,7 @@ rxi_ResetCall(struct rx_call *call, int newcall)
 #endif /* RX_ENABLE_LOCKS */
 
     rxi_KeepAliveOff(call);
-    rxevent_Cancel(call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
+    rxevent_Cancel(&call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
 }
 
 /* Send an acknowledge for the indicated packet (seq,serial) of the
@@ -5290,7 +5398,7 @@ rxi_SendAck(struct rx_call *call,
     struct rx_packet *rqp;
     struct rx_packet *nxp;     /* For queue_Scan */
     struct rx_packet *p;
-    u_char offset;
+    u_char offset = 0;
     afs_int32 templ;
     afs_uint32 padbytes = 0;
 #ifdef RX_ENABLE_TSFPQ
@@ -5386,35 +5494,50 @@ rxi_SendAck(struct rx_call *call,
     ap->serial = htonl(serial);
     ap->maxSkew = 0;           /* used to be peer->inPacketSkew */
 
-    ap->firstPacket = htonl(call->rnext);      /* First packet not yet forwarded to reader */
-    ap->previousPacket = htonl(call->rprev);   /* Previous packet received */
+    /*
+     * First packet not yet forwarded to reader. When ACKALL has been
+     * sent the peer has been told that all received packets will be
+     * delivered to the reader.  The value 'rnext' is used internally
+     * to refer to the next packet in the receive queue that must be
+     * delivered to the reader.  From the perspective of the peer it
+     * already has so report the last sequence number plus one if there
+     * are packets in the receive queue awaiting processing.
+     */
+    if ((call->flags & RX_CALL_ACKALL_SENT) &&
+        !queue_IsEmpty(&call->rq)) {
+        ap->firstPacket = htonl(queue_Last(&call->rq, rx_packet)->header.seq + 1);
+    } else {
+        ap->firstPacket = htonl(call->rnext);
 
-    /* No fear of running out of ack packet here because there can only be at most
-     * one window full of unacknowledged packets.  The window size must be constrained
-     * to be less than the maximum ack size, of course.  Also, an ack should always
-     * fit into a single packet -- it should not ever be fragmented.  */
-    for (offset = 0, queue_Scan(&call->rq, rqp, nxp, rx_packet)) {
-       if (!rqp || !call->rq.next
-           || (rqp->header.seq > (call->rnext + call->rwind))) {
+       ap->previousPacket = htonl(call->rprev);        /* Previous packet received */
+
+       /* No fear of running out of ack packet here because there can only be at most
+        * one window full of unacknowledged packets.  The window size must be constrained
+        * to be less than the maximum ack size, of course.  Also, an ack should always
+        * fit into a single packet -- it should not ever be fragmented.  */
+       for (offset = 0, queue_Scan(&call->rq, rqp, nxp, rx_packet)) {
+           if (!rqp || !call->rq.next
+               || (rqp->header.seq > (call->rnext + call->rwind))) {
 #ifndef RX_ENABLE_TSFPQ
-           if (!optionalPacket)
-               rxi_FreePacket(p);
+               if (!optionalPacket)
+                   rxi_FreePacket(p);
 #endif
-           rxi_CallError(call, RX_CALL_DEAD);
-           return optionalPacket;
-       }
+               rxi_CallError(call, RX_CALL_DEAD);
+               return optionalPacket;
+           }
 
-       while (rqp->header.seq > call->rnext + offset)
-           ap->acks[offset++] = RX_ACK_TYPE_NACK;
-       ap->acks[offset++] = RX_ACK_TYPE_ACK;
+           while (rqp->header.seq > call->rnext + offset)
+               ap->acks[offset++] = RX_ACK_TYPE_NACK;
+           ap->acks[offset++] = RX_ACK_TYPE_ACK;
 
-       if ((offset > (u_char) rx_maxReceiveWindow) || (offset > call->rwind)) {
+           if ((offset > (u_char) rx_maxReceiveWindow) || (offset > call->rwind)) {
 #ifndef RX_ENABLE_TSFPQ
-           if (!optionalPacket)
-               rxi_FreePacket(p);
+               if (!optionalPacket)
+                   rxi_FreePacket(p);
 #endif
-           rxi_CallError(call, RX_CALL_DEAD);
-           return optionalPacket;
+               rxi_CallError(call, RX_CALL_DEAD);
+               return optionalPacket;
+           }
        }
     }
 
@@ -5449,9 +5572,6 @@ rxi_SendAck(struct rx_call *call,
     p->header.flags = RX_SLOW_START_OK;
     if (reason == RX_ACK_PING) {
        p->header.flags |= RX_REQUEST_ACK;
-#ifdef ADAPT_WINDOW
-       clock_GetTime(&call->pingRequestTime);
-#endif
        if (padbytes) {
            p->length = padbytes +
                rx_AckDataSize(call->rwind) + 4 * sizeof(afs_int32);
@@ -5546,7 +5666,7 @@ rxi_SendList(struct rx_call *call, struct xmitlist *xmit,
     int i;
     int requestAck = 0;
     int lastPacket = 0;
-    struct clock now, retryTime;
+    struct clock now;
     struct rx_connection *conn = call->conn;
     struct rx_peer *peer = conn->peer;
 
@@ -5554,7 +5674,6 @@ rxi_SendList(struct rx_call *call, struct xmitlist *xmit,
     peer->nSent += xmit->len;
     if (xmit->resending)
        peer->reSends += xmit->len;
-    retryTime = peer->timeout;
     MUTEX_EXIT(&peer->peer_lock);
 
     if (rx_stats_active) {
@@ -5565,7 +5684,6 @@ rxi_SendList(struct rx_call *call, struct xmitlist *xmit,
     }
 
     clock_GetTime(&now);
-    clock_Add(&retryTime, &now);
 
     if (xmit->list[xmit->len - 1]->header.flags & RX_LAST_PACKET) {
        lastPacket = 1;
@@ -5576,26 +5694,9 @@ rxi_SendList(struct rx_call *call, struct xmitlist *xmit,
     for (i = 0; i < xmit->len; i++) {
        struct rx_packet *packet = xmit->list[i];
 
-       packet->retryTime = retryTime;
-       if (packet->header.serial) {
-           /* Exponentially backoff retry times */
-           if (packet->backoff < MAXBACKOFF) {
-               /* so it can't stay == 0 */
-               packet->backoff = (packet->backoff << 1) + 1;
-           } else
-               packet->backoff++;
-           clock_Addmsec(&(packet->retryTime),
-                         ((afs_uint32) packet->backoff) << 8);
-       }
-
-       /* Wait a little extra for the ack on the last packet */
-       if (lastPacket 
-           && !(packet->header.flags & RX_CLIENT_INITIATED)) {
-           clock_Addmsec(&(packet->retryTime), 400);
-       }
-
        /* Record the time sent */
        packet->timeSent = now;
+       packet->flags |= RX_PKTFLAG_SENT;
 
        /* Ask for an ack on retransmitted packets,  on every other packet
         * if the peer doesn't support slow start. Ask for an ack on every
@@ -5603,7 +5704,6 @@ rxi_SendList(struct rx_call *call, struct xmitlist *xmit,
        if (packet->header.serial) {
            requestAck = 1;
        } else {
-           /* improved RTO calculation- not Karn */
            packet->firstSent = now;
            if (!lastPacket && (call->cwind <= (u_short) (conn->ackRate + 1)
                                || (!(call->flags & RX_CALL_SLOW_START_OK)
@@ -5625,21 +5725,21 @@ rxi_SendList(struct rx_call *call, struct xmitlist *xmit,
 
     /* Since we're about to send a data packet to the peer, it's
      * safe to nuke any scheduled end-of-packets ack */
-    rxevent_Cancel(call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
+    rxevent_Cancel(&call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
 
     MUTEX_EXIT(&call->lock);
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_HOLD(call, RX_CALL_REFCOUNT_SEND);
-    MUTEX_EXIT(&rx_refcnt_mutex);
     if (xmit->len > 1) {
        rxi_SendPacketList(call, conn, xmit->list, xmit->len, istack);
     } else {
        rxi_SendPacket(call, conn, xmit->list[0], istack);
     }
     MUTEX_ENTER(&call->lock);
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_RELE(call, RX_CALL_REFCOUNT_SEND);
-    MUTEX_EXIT(&rx_refcnt_mutex);
+
+    /* Tell the RTO calculation engine that we have sent a packet, and
+     * if it was the last one */
+    rxi_rto_packet_sent(call, lastPacket, istack);
 
     /* Update last send time for this call (for keep-alive
      * processing), and for the connection (so that we can discover
@@ -5664,6 +5764,7 @@ rxi_SendXmitList(struct rx_call *call, struct rx_packet **list, int len,
                 int istack)
 {
     int i;
+    int recovery;
     struct xmitlist working;
     struct xmitlist last;
 
@@ -5675,6 +5776,8 @@ rxi_SendXmitList(struct rx_call *call, struct rx_packet **list, int len,
     working.len = 0;
     working.resending = 0;
 
+    recovery = call->flags & RX_CALL_FAST_RECOVER;
+
     for (i = 0; i < len; i++) {
        /* Does the current packet force us to flush the current list? */
        if (working.len > 0
@@ -5688,7 +5791,8 @@ rxi_SendXmitList(struct rx_call *call, struct rx_packet **list, int len,
                rxi_SendList(call, &last, istack, 1);
                /* If the call enters an error state stop sending, or if
                 * we entered congestion recovery mode, stop sending */
-               if (call->error || (call->flags & RX_CALL_FAST_RECOVER_WAIT))
+               if (call->error
+                   || (!recovery && (call->flags & RX_CALL_FAST_RECOVER)))
                    return;
            }
            last = working;
@@ -5715,7 +5819,7 @@ rxi_SendXmitList(struct rx_call *call, struct rx_packet **list, int len,
                    /* If the call enters an error state stop sending, or if
                     * we entered congestion recovery mode, stop sending */
                    if (call->error
-                       || (call->flags & RX_CALL_FAST_RECOVER_WAIT))
+                       || (!recovery && (call->flags & RX_CALL_FAST_RECOVER)))
                        return;
                }
                last = working;
@@ -5748,7 +5852,8 @@ rxi_SendXmitList(struct rx_call *call, struct rx_packet **list, int len,
            rxi_SendList(call, &last, istack, morePackets);
            /* If the call enters an error state stop sending, or if
             * we entered congestion recovery mode, stop sending */
-           if (call->error || (call->flags & RX_CALL_FAST_RECOVER_WAIT))
+           if (call->error
+               || (!recovery && (call->flags & RX_CALL_FAST_RECOVER)))
                return;
        }
        if (morePackets) {
@@ -5760,19 +5865,81 @@ rxi_SendXmitList(struct rx_call *call, struct rx_packet **list, int len,
     }
 }
 
-#ifdef RX_ENABLE_LOCKS
-/* Call rxi_Start, below, but with the call lock held. */
-void
-rxi_StartUnlocked(struct rxevent *event,
-                 void *arg0, void *arg1, int istack)
+static void
+rxi_Resend(struct rxevent *event, void *arg0, void *arg1, int istack)
 {
     struct rx_call *call = arg0;
+    struct rx_peer *peer;
+    struct rx_packet *p, *nxp;
+    struct clock maxTimeout = { 60, 0 };
 
     MUTEX_ENTER(&call->lock);
-    rxi_Start(event, call, arg1, istack);
+
+    peer = call->conn->peer;
+
+    /* Make sure that the event pointer is removed from the call
+     * structure, since there is no longer a per-call retransmission
+     * event pending. */
+    if (event == call->resendEvent) {
+       CALL_RELE(call, RX_CALL_REFCOUNT_RESEND);
+       rxevent_Put(call->resendEvent);
+       call->resendEvent = NULL;
+    }
+
+    if (rxi_busyChannelError && (call->flags & RX_CALL_PEER_BUSY)) {
+       rxi_CheckBusy(call);
+    }
+
+    if (queue_IsEmpty(&call->tq)) {
+       /* Nothing to do. This means that we've been raced, and that an
+        * ACK has come in between when we were triggered, and when we
+        * actually got to run. */
+       goto out;
+    }
+
+    /* We're in loss recovery */
+    call->flags |= RX_CALL_FAST_RECOVER;
+
+    /* Mark all of the pending packets in the queue as being lost */
+    for (queue_Scan(&call->tq, p, nxp, rx_packet)) {
+       if (!(p->flags & RX_PKTFLAG_ACKED))
+           p->flags &= ~RX_PKTFLAG_SENT;
+    }
+
+    /* We're resending, so we double the timeout of the call. This will be
+     * dropped back down by the first successful ACK that we receive.
+     *
+     * We apply a maximum value here of 60 seconds
+     */
+    clock_Add(&call->rto, &call->rto);
+    if (clock_Gt(&call->rto, &maxTimeout))
+       call->rto = maxTimeout;
+
+    /* Packet loss is most likely due to congestion, so drop our window size
+     * and start again from the beginning */
+    if (peer->maxDgramPackets >1) {
+       call->MTU = RX_JUMBOBUFFERSIZE + RX_HEADER_SIZE;
+        call->MTU = MIN(peer->natMTU, peer->maxMTU);
+    }
+    call->ssthresh = MAX(4, MIN((int)call->cwind, (int)call->twind)) >> 1;
+    call->nDgramPackets = 1;
+    call->cwind = 1;
+    call->nextCwind = 1;
+    call->nAcks = 0;
+    call->nNacks = 0;
+    MUTEX_ENTER(&peer->peer_lock);
+    peer->MTU = call->MTU;
+    peer->cwind = call->cwind;
+    peer->nDgramPackets = 1;
+    peer->congestSeq++;
+    call->congestSeq = peer->congestSeq;
+    MUTEX_EXIT(&peer->peer_lock);
+
+    rxi_Start(call, istack);
+
+out:
     MUTEX_EXIT(&call->lock);
 }
-#endif /* RX_ENABLE_LOCKS */
 
 /* This routine is called when new packets are readied for
  * transmission and when retransmission may be necessary, or when the
@@ -5780,38 +5947,14 @@ rxi_StartUnlocked(struct rxevent *event,
  * better optimized for new packets, the usual case, now that we've
  * got rid of queues of send packets. XXXXXXXXXXX */
 void
-rxi_Start(struct rxevent *event,
-          void *arg0, void *arg1, int istack)
+rxi_Start(struct rx_call *call, int istack)
 {
-    struct rx_call *call = arg0;
 
     struct rx_packet *p;
     struct rx_packet *nxp;     /* Next pointer for queue_Scan */
-    struct clock now, usenow, retryTime;
-    int haveEvent;
     int nXmitPackets;
     int maxXmitPackets;
 
-    /* If rxi_Start is being called as a result of a resend event,
-     * then make sure that the event pointer is removed from the call
-     * structure, since there is no longer a per-call retransmission
-     * event pending. */
-    if (event && event == call->resendEvent) {
-        MUTEX_ENTER(&rx_refcnt_mutex);
-       CALL_RELE(call, RX_CALL_REFCOUNT_RESEND);
-        MUTEX_EXIT(&rx_refcnt_mutex);
-       call->resendEvent = NULL;
-
-       if (rxi_busyChannelError && (call->flags & RX_CALL_PEER_BUSY)) {
-           rxi_CheckBusy(call);
-       }
-
-       if (queue_IsEmpty(&call->tq)) {
-           /* Nothing to do */
-           return;
-       }
-    }
-
     if (call->error) {
 #ifdef AFS_GLOBAL_RXLOCK_KERNEL
         if (rx_stats_active)
@@ -5822,9 +5965,6 @@ rxi_Start(struct rxevent *event,
 
     if (queue_IsNotEmpty(&call->tq)) { /* If we have anything to send */
 
-       clock_GetTime(&now);
-       usenow = now;
-
        /* Send (or resend) any packets that need it, subject to
         * window restrictions and congestion burst control
         * restrictions.  Ask for an ack on the last packet sent in
@@ -5852,20 +5992,6 @@ rxi_Start(struct rxevent *event,
                nXmitPackets = 0;
                maxXmitPackets = MIN(call->twind, call->cwind);
                for (queue_Scan(&call->tq, p, nxp, rx_packet)) {
-                   if (call->flags & RX_CALL_FAST_RECOVER_WAIT) {
-                       /* We shouldn't be sending packets if a thread is waiting
-                        * to initiate congestion recovery */
-                       dpf(("call %d waiting to initiate fast recovery\n",
-                            *(call->callNumber)));
-                       break;
-                   }
-                   if ((nXmitPackets)
-                       && (call->flags & RX_CALL_FAST_RECOVER)) {
-                       /* Only send one packet during fast recovery */
-                       dpf(("call %d restricted to one packet per send during fast recovery\n",
-                            *(call->callNumber)));
-                       break;
-                   }
 #ifdef RX_TRACK_PACKETS
                    if ((p->flags & RX_PKTFLAG_FREE)
                        || (!queue_IsEnd(&call->tq, nxp)
@@ -5877,7 +6003,6 @@ rxi_Start(struct rxevent *event,
 #endif
                    if (p->flags & RX_PKTFLAG_ACKED) {
                        /* Since we may block, don't trust this */
-                       usenow.sec = usenow.usec = 0;
                         if (rx_stats_active)
                             rx_atomic_inc(&rx_stats.ignoreAckedPacket);
                        continue;       /* Ignore this packet if it has been acknowledged */
@@ -5902,16 +6027,14 @@ rxi_Start(struct rxevent *event,
                    }
 
                    /* Transmit the packet if it needs to be sent. */
-                   if (!clock_Lt(&now, &p->retryTime)) {
+                   if (!(p->flags & RX_PKTFLAG_SENT)) {
                        if (nXmitPackets == maxXmitPackets) {
                            rxi_SendXmitList(call, call->xmitList,
                                             nXmitPackets, istack);
                            goto restart;
                        }
-                        dpf(("call %d xmit packet %"AFS_PTR_FMT" now %u.%06u retryTime %u.%06u\n",
-                              *(call->callNumber), p,
-                              now.sec, now.usec,
-                              p->retryTime.sec, p->retryTime.usec));
+                        dpf(("call %d xmit packet %"AFS_PTR_FMT"\n",
+                              *(call->callNumber), p));
                        call->xmitList[nXmitPackets++] = p;
                    }
                }
@@ -5924,15 +6047,6 @@ rxi_Start(struct rxevent *event,
                }
 
 #ifdef AFS_GLOBAL_RXLOCK_KERNEL
-               /*
-                * TQ references no longer protected by this flag; they must remain
-                * protected by the global lock.
-                */
-               if (call->flags & RX_CALL_FAST_RECOVER_WAIT) {
-                   call->flags &= ~RX_CALL_TQ_BUSY;
-                   rxi_WakeUpTransmitQueue(call);
-                   return;
-               }
                if (call->error) {
                    /* We went into the error state while sending packets. Now is
                     * the time to reset the call. This will also inform the using
@@ -5971,59 +6085,8 @@ rxi_Start(struct rxevent *event,
                        call->flags |= RX_CALL_TQ_CLEARME;
                }
 #endif /* RX_ENABLE_LOCKS */
-               /* Don't bother doing retransmits if the TQ is cleared. */
-               if (call->flags & RX_CALL_TQ_CLEARME) {
+               if (call->flags & RX_CALL_TQ_CLEARME)
                    rxi_ClearTransmitQueue(call, 1);
-               } else
-#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
-               {
-
-                   /* Always post a resend event, if there is anything in the
-                    * queue, and resend is possible.  There should be at least
-                    * one unacknowledged packet in the queue ... otherwise none
-                    * of these packets should be on the queue in the first place.
-                    */
-                   if (call->resendEvent) {
-                       /* Cancel the existing event and post a new one */
-                       rxevent_Cancel(call->resendEvent, call,
-                                      RX_CALL_REFCOUNT_RESEND);
-                   }
-
-                   /* The retry time is the retry time on the first unacknowledged
-                    * packet inside the current window */
-                   for (haveEvent =
-                        0, queue_Scan(&call->tq, p, nxp, rx_packet)) {
-                       /* Don't set timers for packets outside the window */
-                       if (p->header.seq >= call->tfirst + call->twind) {
-                           break;
-                       }
-
-                       if (!(p->flags & RX_PKTFLAG_ACKED)
-                           && !clock_IsZero(&p->retryTime)) {
-                           haveEvent = 1;
-                           retryTime = p->retryTime;
-                           break;
-                       }
-                   }
-
-                   /* Post a new event to re-run rxi_Start when retries may be needed */
-                   if (haveEvent && !(call->flags & RX_CALL_NEED_START)) {
-#ifdef RX_ENABLE_LOCKS
-                        MUTEX_ENTER(&rx_refcnt_mutex);
-                       CALL_HOLD(call, RX_CALL_REFCOUNT_RESEND);
-                        MUTEX_EXIT(&rx_refcnt_mutex);
-                       call->resendEvent =
-                           rxevent_PostNow2(&retryTime, &usenow,
-                                            rxi_StartUnlocked,
-                                            (void *)call, 0, istack);
-#else /* RX_ENABLE_LOCKS */
-                       call->resendEvent =
-                           rxevent_PostNow2(&retryTime, &usenow, rxi_Start,
-                                            (void *)call, 0, istack);
-#endif /* RX_ENABLE_LOCKS */
-                   }
-               }
-#ifdef AFS_GLOBAL_RXLOCK_KERNEL
            } while (call->flags & RX_CALL_NEED_START);
            /*
             * TQ references no longer protected by this flag; they must remain
@@ -6036,9 +6099,7 @@ rxi_Start(struct rxevent *event,
        }
 #endif /* AFS_GLOBAL_RXLOCK_KERNEL */
     } else {
-       if (call->resendEvent) {
-           rxevent_Cancel(call->resendEvent, call, RX_CALL_REFCOUNT_RESEND);
-       }
+       rxi_rto_cancel(call);
     }
 }
 
@@ -6060,17 +6121,13 @@ rxi_Send(struct rx_call *call, struct rx_packet *p,
 
     /* Since we're about to send SOME sort of packet to the peer, it's
      * safe to nuke any scheduled end-of-packets ack */
-    rxevent_Cancel(call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
+    rxevent_Cancel(&call->delayedAckEvent, call, RX_CALL_REFCOUNT_DELAY);
 
     /* Actually send the packet, filling in more connection-specific fields */
     MUTEX_EXIT(&call->lock);
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_HOLD(call, RX_CALL_REFCOUNT_SEND);
-    MUTEX_EXIT(&rx_refcnt_mutex);
     rxi_SendPacket(call, conn, p, istack);
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_RELE(call, RX_CALL_REFCOUNT_SEND);
-    MUTEX_EXIT(&rx_refcnt_mutex);
     MUTEX_ENTER(&call->lock);
 
     /* Update last send time for this call (for keep-alive
@@ -6111,6 +6168,32 @@ rxi_CheckCall(struct rx_call *call)
     afs_uint32 fudgeFactor;
     int cerror = 0;
     int newmtu = 0;
+    int idle_timeout = 0;
+    afs_int32  clock_diff = 0;
+
+    now = clock_Sec();
+
+    /* Large swings in the clock can have a significant impact on
+     * the performance of RX call processing.  Forward clock shifts
+     * will result in premature event triggering or timeouts.
+     * Backward shifts can result in calls not completing until
+     * the clock catches up with the original start clock value.
+     *
+     * If a backward clock shift of more than five minutes is noticed,
+     * just fail the call.
+     */
+    if (now < call->lastSendTime)
+        clock_diff = call->lastSendTime - now;
+    if (now < call->startWait)
+        clock_diff = MAX(clock_diff, call->startWait - now);
+    if (now < call->lastReceiveTime)
+        clock_diff = MAX(clock_diff, call->lastReceiveTime - now);
+    if (clock_diff > 5 * 60)
+    {
+       if (call->state == RX_STATE_ACTIVE)
+           rxi_CallError(call, RX_CALL_TIMEOUT);
+       return -1;
+    }
 
 #ifdef AFS_GLOBAL_RXLOCK_KERNEL
     if (call->flags & RX_CALL_TQ_BUSY) {
@@ -6121,18 +6204,17 @@ rxi_CheckCall(struct rx_call *call)
     }
 #endif
     /* RTT + 8*MDEV, rounded up to the next second. */
-    fudgeFactor = (((afs_uint32) conn->peer->rtt >> 3) +
-                   ((afs_uint32) conn->peer->rtt_dev << 1) + 1023) >> 10;
+    fudgeFactor = (((afs_uint32) call->rtt >> 3) +
+                   ((afs_uint32) call->rtt_dev << 1) + 1023) >> 10;
 
     deadTime = conn->secondsUntilDead + fudgeFactor;
-    now = clock_Sec();
     /* These are computed to the second (+- 1 second).  But that's
      * good enough for these values, which should be a significant
      * number of seconds. */
     if (now > (call->lastReceiveTime + deadTime)) {
        if (call->state == RX_STATE_ACTIVE) {
 #ifdef ADAPT_PMTU
-#if defined(KERNEL) && defined(AFS_SUN57_ENV)
+#if defined(KERNEL) && defined(AFS_SUN5_ENV)
            ire_t *ire;
 #if defined(AFS_SUN510_ENV) && defined(GLOBAL_NETSTACKID)
            netstack_t *ns =  netstack_find_by_stackid(GLOBAL_NETSTACKID);
@@ -6163,19 +6245,20 @@ rxi_CheckCall(struct rx_call *call)
        } else {
 #ifdef RX_ENABLE_LOCKS
            /* Cancel pending events */
-           rxevent_Cancel(call->delayedAckEvent, call,
+           rxevent_Cancel(&call->delayedAckEvent, call,
                           RX_CALL_REFCOUNT_DELAY);
-           rxevent_Cancel(call->resendEvent, call, RX_CALL_REFCOUNT_RESEND);
-           rxevent_Cancel(call->keepAliveEvent, call,
+           rxi_rto_cancel(call);
+           rxevent_Cancel(&call->keepAliveEvent, call,
+                          RX_CALL_REFCOUNT_ALIVE);
+           rxevent_Cancel(&call->growMTUEvent, call,
                           RX_CALL_REFCOUNT_ALIVE);
-           if (call->growMTUEvent)
-               rxevent_Cancel(call->growMTUEvent, call,
-                              RX_CALL_REFCOUNT_ALIVE);
             MUTEX_ENTER(&rx_refcnt_mutex);
-           if (call->refCount == 0) {
-               rxi_FreeCall(call, haveCTLock);
+            /* if rxi_FreeCall returns 1 it has freed the call */
+           if (call->refCount == 0 &&
+                rxi_FreeCall(call, haveCTLock))
+            {
                 MUTEX_EXIT(&rx_refcnt_mutex);
-               return -2;
+                return -2;
            }
             MUTEX_EXIT(&rx_refcnt_mutex);
            return -1;
@@ -6189,25 +6272,29 @@ rxi_CheckCall(struct rx_call *call)
         * attached process can die reasonably gracefully. */
     }
 
-    if (conn->idleDeadTime) {
-       idleDeadTime = conn->idleDeadTime + fudgeFactor;
-    }
+    if (conn->idleDeadDetection) {
+        if (conn->idleDeadTime) {
+            idleDeadTime = conn->idleDeadTime + fudgeFactor;
+        }
 
-    /* see if we have a non-activity timeout */
-    if (call->startWait && idleDeadTime
-       && ((call->startWait + idleDeadTime) < now) &&
-       (call->flags & RX_CALL_READER_WAIT)) {
-       if (call->state == RX_STATE_ACTIVE) {
-           cerror = RX_CALL_TIMEOUT;
-           goto mtuout;
-       }
-    }
-    if (call->lastSendData && idleDeadTime && (conn->idleDeadErr != 0)
-        && ((call->lastSendData + idleDeadTime) < now)) {
-       if (call->state == RX_STATE_ACTIVE) {
-           cerror = conn->idleDeadErr;
-           goto mtuout;
-       }
+        if (idleDeadTime) {
+            /* see if we have a non-activity timeout */
+            if (call->startWait && ((call->startWait + idleDeadTime) < now) &&
+                (call->flags & RX_CALL_READER_WAIT)) {
+                if (call->state == RX_STATE_ACTIVE) {
+                    cerror = RX_CALL_TIMEOUT;
+                    goto mtuout;
+                }
+            }
+
+            if (call->lastSendData && ((call->lastSendData + idleDeadTime) < now)) {
+                if (call->state == RX_STATE_ACTIVE) {
+                    cerror = conn->service ? conn->service->idleDeadErr : RX_CALL_IDLE;
+                    idle_timeout = 1;
+                    goto mtuout;
+                }
+            }
+        }
     }
 
     if (conn->hardDeadTime) {
@@ -6223,8 +6310,8 @@ rxi_CheckCall(struct rx_call *call)
     }
     return 0;
 mtuout:
-    if (conn->msgsizeRetryErr && cerror != RX_CALL_TIMEOUT
-       && call->lastReceiveTime) {
+    if (conn->msgsizeRetryErr && cerror != RX_CALL_TIMEOUT && !idle_timeout &&
+        call->lastReceiveTime) {
        int oldMTU = conn->peer->ifMTU;
 
        /* if we thought we could send more, perhaps things got worse */
@@ -6254,7 +6341,8 @@ mtuout:
 }
 
 void
-rxi_NatKeepAliveEvent(struct rxevent *event, void *arg1, void *dummy)
+rxi_NatKeepAliveEvent(struct rxevent *event, void *arg1,
+                     void *dummy, int dummy2)
 {
     struct rx_connection *conn = arg1;
     struct rx_header theader;
@@ -6296,6 +6384,7 @@ rxi_NatKeepAliveEvent(struct rxevent *event, void *arg1, void *dummy)
     MUTEX_ENTER(&rx_refcnt_mutex);
     /* Only reschedule ourselves if the connection would not be destroyed */
     if (conn->refCount <= 1) {
+       rxevent_Put(conn->natKeepAliveEvent);
        conn->natKeepAliveEvent = NULL;
         MUTEX_EXIT(&rx_refcnt_mutex);
        MUTEX_EXIT(&conn->conn_data_lock);
@@ -6303,6 +6392,7 @@ rxi_NatKeepAliveEvent(struct rxevent *event, void *arg1, void *dummy)
     } else {
        conn->refCount--; /* drop the reference for this */
         MUTEX_EXIT(&rx_refcnt_mutex);
+       rxevent_Put(conn->natKeepAliveEvent);
        conn->natKeepAliveEvent = NULL;
        rxi_ScheduleNatKeepAliveEvent(conn);
        MUTEX_EXIT(&conn->conn_data_lock);
@@ -6321,7 +6411,7 @@ rxi_ScheduleNatKeepAliveEvent(struct rx_connection *conn)
        conn->refCount++; /* hold a reference for this */
         MUTEX_EXIT(&rx_refcnt_mutex);
        conn->natKeepAliveEvent =
-           rxevent_PostNow(&when, &now, rxi_NatKeepAliveEvent, conn, 0);
+           rxevent_Post(&when, &now, rxi_NatKeepAliveEvent, conn, NULL, 0);
     }
 }
 
@@ -6330,8 +6420,12 @@ rx_SetConnSecondsUntilNatPing(struct rx_connection *conn, afs_int32 seconds)
 {
     MUTEX_ENTER(&conn->conn_data_lock);
     conn->secondsUntilNatPing = seconds;
-    if (seconds != 0)
-       rxi_ScheduleNatKeepAliveEvent(conn);
+    if (seconds != 0) {
+       if (!(conn->flags & RX_CONN_ATTACHWAIT))
+           rxi_ScheduleNatKeepAliveEvent(conn);
+       else
+           conn->flags |= RX_CONN_NAT_PING;
+    }
     MUTEX_EXIT(&conn->conn_data_lock);
 }
 
@@ -6339,7 +6433,11 @@ void
 rxi_NatKeepAliveOn(struct rx_connection *conn)
 {
     MUTEX_ENTER(&conn->conn_data_lock);
-    rxi_ScheduleNatKeepAliveEvent(conn);
+    /* if it's already attached */
+    if (!(conn->flags & RX_CONN_ATTACHWAIT))
+       rxi_ScheduleNatKeepAliveEvent(conn);
+    else
+       conn->flags |= RX_CONN_NAT_PING;
     MUTEX_EXIT(&conn->conn_data_lock);
 }
 
@@ -6350,18 +6448,21 @@ rxi_NatKeepAliveOn(struct rx_connection *conn)
  * keep-alive packet (if we're actually trying to keep the call alive)
  */
 void
-rxi_KeepAliveEvent(struct rxevent *event, void *arg1, void *dummy)
+rxi_KeepAliveEvent(struct rxevent *event, void *arg1, void *dummy,
+                  int dummy2)
 {
     struct rx_call *call = arg1;
     struct rx_connection *conn;
     afs_uint32 now;
 
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_RELE(call, RX_CALL_REFCOUNT_ALIVE);
-    MUTEX_EXIT(&rx_refcnt_mutex);
     MUTEX_ENTER(&call->lock);
-    if (event == call->keepAliveEvent)
+
+    if (event == call->keepAliveEvent) {
+       rxevent_Put(call->keepAliveEvent);
        call->keepAliveEvent = NULL;
+    }
+
     now = clock_Sec();
 
 #ifdef RX_ENABLE_LOCKS
@@ -6393,18 +6494,18 @@ rxi_KeepAliveEvent(struct rxevent *event, void *arg1, void *dummy)
 
 /* Does what's on the nameplate. */
 void
-rxi_GrowMTUEvent(struct rxevent *event, void *arg1, void *dummy)
+rxi_GrowMTUEvent(struct rxevent *event, void *arg1, void *dummy, int dummy2)
 {
     struct rx_call *call = arg1;
     struct rx_connection *conn;
 
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_RELE(call, RX_CALL_REFCOUNT_ALIVE);
-    MUTEX_EXIT(&rx_refcnt_mutex);
     MUTEX_ENTER(&call->lock);
 
-    if (event == call->growMTUEvent)
+    if (event == call->growMTUEvent) {
+       rxevent_Put(call->growMTUEvent);
        call->growMTUEvent = NULL;
+    }
 
 #ifdef RX_ENABLE_LOCKS
     if (rxi_CheckCall(call, 0)) {
@@ -6430,7 +6531,7 @@ rxi_GrowMTUEvent(struct rxevent *event, void *arg1, void *dummy)
      */
     if ((conn->peer->maxPacketSize != 0) &&
        (conn->peer->natMTU < RX_MAX_PACKET_SIZE) &&
-       (conn->idleDeadErr))
+       conn->idleDeadDetection)
        (void)rxi_SendAck(call, NULL, 0, RX_ACK_MTU, 0);
     rxi_ScheduleGrowMTUEvent(call, 0);
     MUTEX_EXIT(&call->lock);
@@ -6444,11 +6545,9 @@ rxi_ScheduleKeepAliveEvent(struct rx_call *call)
        clock_GetTime(&now);
        when = now;
        when.sec += call->conn->secondsUntilPing;
-        MUTEX_ENTER(&rx_refcnt_mutex);
        CALL_HOLD(call, RX_CALL_REFCOUNT_ALIVE);
-        MUTEX_EXIT(&rx_refcnt_mutex);
        call->keepAliveEvent =
-           rxevent_PostNow(&when, &now, rxi_KeepAliveEvent, call, 0);
+           rxevent_Post(&when, &now, rxi_KeepAliveEvent, call, NULL, 0);
     }
 }
 
@@ -6469,11 +6568,9 @@ rxi_ScheduleGrowMTUEvent(struct rx_call *call, int secs)
        }
 
        when.sec += secs;
-        MUTEX_ENTER(&rx_refcnt_mutex);
        CALL_HOLD(call, RX_CALL_REFCOUNT_ALIVE);
-        MUTEX_EXIT(&rx_refcnt_mutex);
        call->growMTUEvent =
-           rxevent_PostNow(&when, &now, rxi_GrowMTUEvent, call, 0);
+           rxevent_Post(&when, &now, rxi_GrowMTUEvent, call, NULL, 0);
     }
 }
 
@@ -6490,6 +6587,20 @@ rxi_KeepAliveOn(struct rx_call *call)
     rxi_ScheduleKeepAliveEvent(call);
 }
 
+/*
+ * Solely in order that callers not need to include rx_call.h
+ */
+void
+rx_KeepAliveOff(struct rx_call *call)
+{
+    rxi_KeepAliveOff(call);
+}
+void
+rx_KeepAliveOn(struct rx_call *call)
+{
+    rxi_KeepAliveOn(call);
+}
+
 void
 rxi_GrowMTUOn(struct rx_call *call)
 {
@@ -6503,8 +6614,8 @@ rxi_GrowMTUOn(struct rx_call *call)
 /* This routine is called to send connection abort messages
  * that have been delayed to throttle looping clients. */
 void
-rxi_SendDelayedConnAbort(struct rxevent *event,
-                        void *arg1, void *unused)
+rxi_SendDelayedConnAbort(struct rxevent *event, void *arg1, void *unused,
+                        int unused2)
 {
     struct rx_connection *conn = arg1;
 
@@ -6512,6 +6623,7 @@ rxi_SendDelayedConnAbort(struct rxevent *event,
     struct rx_packet *packet;
 
     MUTEX_ENTER(&conn->conn_data_lock);
+    rxevent_Put(conn->delayedAbortEvent);
     conn->delayedAbortEvent = NULL;
     error = htonl(conn->error);
     conn->abortCount++;
@@ -6528,9 +6640,9 @@ rxi_SendDelayedConnAbort(struct rxevent *event,
 
 /* This routine is called to send call abort messages
  * that have been delayed to throttle looping clients. */
-void
-rxi_SendDelayedCallAbort(struct rxevent *event,
-                        void *arg1, void *dummy)
+static void
+rxi_SendDelayedCallAbort(struct rxevent *event, void *arg1, void *dummy,
+                        int dummy2)
 {
     struct rx_call *call = arg1;
 
@@ -6538,6 +6650,7 @@ rxi_SendDelayedCallAbort(struct rxevent *event,
     struct rx_packet *packet;
 
     MUTEX_ENTER(&call->lock);
+    rxevent_Put(call->delayedAbortEvent);
     call->delayedAbortEvent = NULL;
     error = htonl(call->error);
     call->abortCount++;
@@ -6549,9 +6662,7 @@ rxi_SendDelayedCallAbort(struct rxevent *event,
        rxi_FreePacket(packet);
     }
     MUTEX_EXIT(&call->lock);
-    MUTEX_ENTER(&rx_refcnt_mutex);
     CALL_RELE(call, RX_CALL_REFCOUNT_ABORT);
-    MUTEX_EXIT(&rx_refcnt_mutex);
 }
 
 /* This routine is called periodically (every RX_AUTH_REQUEST_TIMEOUT
@@ -6564,7 +6675,11 @@ rxi_ChallengeEvent(struct rxevent *event,
 {
     struct rx_connection *conn = arg0;
 
-    conn->challengeEvent = NULL;
+    if (event) {
+       rxevent_Put(conn->challengeEvent);
+       conn->challengeEvent = NULL;
+    }
+
     if (RXS_CheckAuthentication(conn->securityObject, conn) != 0) {
        struct rx_packet *packet;
        struct clock when, now;
@@ -6604,7 +6719,7 @@ rxi_ChallengeEvent(struct rxevent *event,
        when = now;
        when.sec += RX_CHALLENGE_TIMEOUT;
        conn->challengeEvent =
-           rxevent_PostNow2(&when, &now, rxi_ChallengeEvent, conn, 0,
+           rxevent_Post(&when, &now, rxi_ChallengeEvent, conn, 0,
                         (tries - 1));
     }
 }
@@ -6630,6 +6745,7 @@ rxi_ChallengeOn(struct rx_connection *conn)
 static void
 rxi_ComputeRoundTripTime(struct rx_packet *p,
                         struct rx_ackPacket *ack,
+                        struct rx_call *call,
                         struct rx_peer *peer,
                         struct clock *now)
 {
@@ -6707,11 +6823,11 @@ rxi_ComputeRoundTripTime(struct rx_packet *p,
     /* better rtt calculation courtesy of UMich crew (dave,larry,peter,?) */
 
     /* Apply VanJacobson round-trip estimations */
-    if (peer->rtt) {
+    if (call->rtt) {
        int delta;
 
        /*
-        * srtt (peer->rtt) is in units of one-eighth-milliseconds.
+        * srtt (call->rtt) is in units of one-eighth-milliseconds.
         * srtt is stored as fixed point with 3 bits after the binary
         * point (i.e., scaled by 8). The following magic is
         * equivalent to the smoothing algorithm in rfc793 with an
@@ -6722,8 +6838,8 @@ rxi_ComputeRoundTripTime(struct rx_packet *p,
          * srtt' = srtt + (rtt - srtt)/8
         */
 
-       delta = _8THMSEC(&thisRtt) - peer->rtt;
-       peer->rtt += (delta >> 3);
+       delta = _8THMSEC(&thisRtt) - call->rtt;
+       call->rtt += (delta >> 3);
 
        /*
         * We accumulate a smoothed rtt variance (actually, a smoothed
@@ -6746,8 +6862,8 @@ rxi_ComputeRoundTripTime(struct rx_packet *p,
        if (delta < 0)
            delta = -delta;
 
-       delta -= (peer->rtt_dev << 1);
-       peer->rtt_dev += (delta >> 3);
+       delta -= (call->rtt_dev << 1);
+       call->rtt_dev += (delta >> 3);
     } else {
        /* I don't have a stored RTT so I start with this value.  Since I'm
         * probably just starting a call, and will be pushing more data down
@@ -6755,29 +6871,36 @@ rxi_ComputeRoundTripTime(struct rx_packet *p,
         * little, and I set deviance to half the rtt.  In practice,
         * deviance tends to approach something a little less than
         * half the smoothed rtt. */
-       peer->rtt = _8THMSEC(&thisRtt) + 8;
-       peer->rtt_dev = peer->rtt >> 2; /* rtt/2: they're scaled differently */
+       call->rtt = _8THMSEC(&thisRtt) + 8;
+       call->rtt_dev = call->rtt >> 2; /* rtt/2: they're scaled differently */
     }
-    /* the timeout is RTT + 4*MDEV + rx_minPeerTimeout msec.
-     * This is because one end or the other of these connections is usually
-     * in a user process, and can be switched and/or swapped out.  So on fast,
-     * reliable networks, the timeout would otherwise be too short. */
-    rtt_timeout = ((peer->rtt >> 3) + peer->rtt_dev) + rx_minPeerTimeout;
-    clock_Zero(&(peer->timeout));
-    clock_Addmsec(&(peer->timeout), rtt_timeout);
+    /* the smoothed RTT time is RTT + 4*MDEV
+     *
+     * We allow a user specified minimum to be set for this, to allow clamping
+     * at a minimum value in the same way as TCP. In addition, we have to allow
+     * for the possibility that this packet is answered by a delayed ACK, so we
+     * add on a fixed 200ms to account for that timer expiring.
+     */
 
-    /* Reset the backedOff flag since we just computed a new timeout value */
-    peer->backedOff = 0;
+    rtt_timeout = MAX(((call->rtt >> 3) + call->rtt_dev),
+                     rx_minPeerTimeout) + 200;
+    clock_Zero(&call->rto);
+    clock_Addmsec(&call->rto, rtt_timeout);
+
+    /* Update the peer, so any new calls start with our values */
+    peer->rtt_dev = call->rtt_dev;
+    peer->rtt = call->rtt;
 
     dpf(("rxi_ComputeRoundTripTime(call=%d packet=%"AFS_PTR_FMT" rtt=%d ms, srtt=%d ms, rtt_dev=%d ms, timeout=%d.%06d sec)\n",
-          p->header.callNumber, p, MSEC(&thisRtt), peer->rtt >> 3, peer->rtt_dev >> 2, (peer->timeout.sec), (peer->timeout.usec)));
+          p->header.callNumber, p, MSEC(&thisRtt), call->rtt >> 3, call->rtt_dev >> 2, (call->rto.sec), (call->rto.usec)));
 }
 
 
 /* Find all server connections that have not been active for a long time, and
  * toss them */
 void
-rxi_ReapConnections(struct rxevent *unused, void *unused1, void *unused2)
+rxi_ReapConnections(struct rxevent *unused, void *unused1, void *unused2,
+                   int unused3)
 {
     struct clock now, when;
     clock_GetTime(&now);
@@ -6984,7 +7107,7 @@ rxi_ReapConnections(struct rxevent *unused, void *unused1, void *unused2)
 
     when = now;
     when.sec += RX_REAP_TIME;  /* Check every RX_REAP_TIME seconds */
-    rxevent_Post(&when, rxi_ReapConnections, 0, 0);
+    rxevent_Put(rxevent_Post(&when, &now, rxi_ReapConnections, 0, NULL, 0));
 }
 
 
@@ -7003,160 +7126,6 @@ rxs_Release(struct rx_securityClass *aobj)
     return RXS_Close(aobj);
 }
 
-#ifdef ADAPT_WINDOW
-#define        RXRATE_PKT_OH   (RX_HEADER_SIZE + RX_IPUDP_SIZE)
-#define        RXRATE_SMALL_PKT    (RXRATE_PKT_OH + sizeof(struct rx_ackPacket))
-#define        RXRATE_AVG_SMALL_PKT    (RXRATE_PKT_OH + (sizeof(struct rx_ackPacket)/2))
-#define        RXRATE_LARGE_PKT    (RXRATE_SMALL_PKT + 256)
-
-/* Adjust our estimate of the transmission rate to this peer, given
- * that the packet p was just acked. We can adjust peer->timeout and
- * call->twind. Pragmatically, this is called
- * only with packets of maximal length.
- * Called with peer and call locked.
- */
-
-static void
-rxi_ComputeRate(struct rx_peer *peer, struct rx_call *call,
-               struct rx_packet *p, struct rx_packet *ackp, u_char ackReason)
-{
-    afs_int32 xferSize, xferMs;
-    afs_int32 minTime;
-    struct clock newTO;
-
-    /* Count down packets */
-    if (peer->rateFlag > 0)
-       peer->rateFlag--;
-    /* Do nothing until we're enabled */
-    if (peer->rateFlag != 0)
-       return;
-    if (!call->conn)
-       return;
-
-    /* Count only when the ack seems legitimate */
-    switch (ackReason) {
-    case RX_ACK_REQUESTED:
-       xferSize =
-           p->length + RX_HEADER_SIZE + call->conn->securityMaxTrailerSize;
-       xferMs = peer->rtt;
-       break;
-
-    case RX_ACK_PING_RESPONSE:
-       if (p)                  /* want the response to ping-request, not data send */
-           return;
-       clock_GetTime(&newTO);
-       if (clock_Gt(&newTO, &call->pingRequestTime)) {
-           clock_Sub(&newTO, &call->pingRequestTime);
-           xferMs = (newTO.sec * 1000) + (newTO.usec / 1000);
-       } else {
-           return;
-       }
-       xferSize = rx_AckDataSize(rx_maxSendWindow) + RX_HEADER_SIZE;
-       break;
-
-    default:
-       return;
-    }
-
-    dpf(("CONG peer %lx/%u: sample (%s) size %ld, %ld ms (to %d.%06d, rtt %u, ps %u)\n",
-          ntohl(peer->host), ntohs(peer->port), (ackReason == RX_ACK_REQUESTED ? "dataack" : "pingack"),
-          xferSize, xferMs, peer->timeout.sec, peer->timeout.usec, peer->smRtt, peer->ifMTU));
-
-    /* Track only packets that are big enough. */
-    if ((p->length + RX_HEADER_SIZE + call->conn->securityMaxTrailerSize) <
-       peer->ifMTU)
-       return;
-
-    /* absorb RTT data (in milliseconds) for these big packets */
-    if (peer->smRtt == 0) {
-       peer->smRtt = xferMs;
-    } else {
-       peer->smRtt = ((peer->smRtt * 15) + xferMs + 4) >> 4;
-       if (!peer->smRtt)
-           peer->smRtt = 1;
-    }
-
-    if (peer->countDown) {
-       peer->countDown--;
-       return;
-    }
-    peer->countDown = 10;      /* recalculate only every so often */
-
-    /* In practice, we can measure only the RTT for full packets,
-     * because of the way Rx acks the data that it receives.  (If it's
-     * smaller than a full packet, it often gets implicitly acked
-     * either by the call response (from a server) or by the next call
-     * (from a client), and either case confuses transmission times
-     * with processing times.)  Therefore, replace the above
-     * more-sophisticated processing with a simpler version, where the
-     * smoothed RTT is kept for full-size packets, and the time to
-     * transmit a windowful of full-size packets is simply RTT *
-     * windowSize. Again, we take two steps:
-     - ensure the timeout is large enough for a single packet's RTT;
-     - ensure that the window is small enough to fit in the desired timeout.*/
-
-    /* First, the timeout check. */
-    minTime = peer->smRtt;
-    /* Get a reasonable estimate for a timeout period */
-    minTime += minTime;
-    newTO.sec = minTime / 1000;
-    newTO.usec = (minTime - (newTO.sec * 1000)) * 1000;
-
-    /* Increase the timeout period so that we can always do at least
-     * one packet exchange */
-    if (clock_Gt(&newTO, &peer->timeout)) {
-
-       dpf(("CONG peer %lx/%u: timeout %d.%06d ==> %ld.%06d (rtt %u)\n",
-              ntohl(peer->host), ntohs(peer->port), peer->timeout.sec, peer->timeout.usec,
-              newTO.sec, newTO.usec, peer->smRtt));
-
-       peer->timeout = newTO;
-    }
-
-    /* Now, get an estimate for the transmit window size. */
-    minTime = peer->timeout.sec * 1000 + (peer->timeout.usec / 1000);
-    /* Now, convert to the number of full packets that could fit in a
-     * reasonable fraction of that interval */
-    minTime /= (peer->smRtt << 1);
-    minTime = MAX(minTime, rx_minPeerTimeout);
-    xferSize = minTime;                /* (make a copy) */
-
-    /* Now clamp the size to reasonable bounds. */
-    if (minTime <= 1)
-       minTime = 1;
-    else if (minTime > rx_maxSendWindow)
-       minTime = rx_maxSendWindow;
-/*    if (minTime != peer->maxWindow) {
-      dpf(("CONG peer %lx/%u: windowsize %lu ==> %lu (to %lu.%06lu, rtt %u)\n",
-            ntohl(peer->host), ntohs(peer->port), peer->maxWindow, minTime,
-            peer->timeout.sec, peer->timeout.usec, peer->smRtt));
-      peer->maxWindow = minTime;
-       elide... call->twind = minTime;
-    }
-*/
-
-    /* Cut back on the peer timeout if it had earlier grown unreasonably.
-     * Discern this by calculating the timeout necessary for rx_Window
-     * packets. */
-    if ((xferSize > rx_maxSendWindow) && (peer->timeout.sec >= 3)) {
-       /* calculate estimate for transmission interval in milliseconds */
-       minTime = rx_maxSendWindow * peer->smRtt;
-       if (minTime < 1000) {
-           dpf(("CONG peer %lx/%u: cut TO %d.%06d by 0.5 (rtt %u)\n",
-                ntohl(peer->host), ntohs(peer->port), peer->timeout.sec,
-                peer->timeout.usec, peer->smRtt));
-
-           newTO.sec = 0;      /* cut back on timeout by half a second */
-           newTO.usec = 500000;
-           clock_Sub(&peer->timeout, &newTO);
-       }
-    }
-
-    return;
-}                              /* end of rxi_ComputeRate */
-#endif /* ADAPT_WINDOW */
-
-
 void
 rxi_DebugInit(void)
 {
@@ -7344,9 +7313,8 @@ rx_PrintPeerStats(FILE * file, struct rx_peer *peer)
            (int)peer->burstWait.sec, (int)peer->burstWait.usec);
 
     fprintf(file,
-           "   Rtt %d, " "retry time %u.%06d, " "total sent %d, "
-           "resent %d\n", peer->rtt, (int)peer->timeout.sec,
-           (int)peer->timeout.usec, peer->nSent, peer->reSends);
+           "   Rtt %d, " "total sent %d, " "resent %d\n",
+           peer->rtt, peer->nSent, peer->reSends);
 
     fprintf(file,
            "   Packet size %d, " "max in packet skew %d, "
@@ -7724,13 +7692,12 @@ rx_GetServerPeers(osi_socket socket, afs_uint32 remoteAddr,
        peer->burstWait.usec = ntohl(peer->burstWait.usec);
        peer->rtt = ntohl(peer->rtt);
        peer->rtt_dev = ntohl(peer->rtt_dev);
-       peer->timeout.sec = ntohl(peer->timeout.sec);
-       peer->timeout.usec = ntohl(peer->timeout.usec);
+       peer->timeout.sec = 0;
+       peer->timeout.usec = 0;
        peer->nSent = ntohl(peer->nSent);
        peer->reSends = ntohl(peer->reSends);
        peer->inPacketSkew = ntohl(peer->inPacketSkew);
        peer->outPacketSkew = ntohl(peer->outPacketSkew);
-       peer->rateFlag = ntohl(peer->rateFlag);
        peer->natMTU = ntohs(peer->natMTU);
        peer->maxMTU = ntohs(peer->maxMTU);
        peer->maxDgramPackets = ntohs(peer->maxDgramPackets);
@@ -7783,13 +7750,12 @@ rx_GetLocalPeers(afs_uint32 peerHost, afs_uint16 peerPort,
                peerStats->burstWait.usec = tp->burstWait.usec;
                peerStats->rtt = tp->rtt;
                peerStats->rtt_dev = tp->rtt_dev;
-               peerStats->timeout.sec = tp->timeout.sec;
-               peerStats->timeout.usec = tp->timeout.usec;
+               peerStats->timeout.sec = 0;
+               peerStats->timeout.usec = 0;
                peerStats->nSent = tp->nSent;
                peerStats->reSends = tp->reSends;
                peerStats->inPacketSkew = tp->inPacketSkew;
                peerStats->outPacketSkew = tp->outPacketSkew;
-               peerStats->rateFlag = tp->rateFlag;
                peerStats->natMTU = tp->natMTU;
                peerStats->maxMTU = tp->maxMTU;
                peerStats->maxDgramPackets = tp->maxDgramPackets;