/*
* Copyright 2000, International Business Machines Corporation and others.
* All Rights Reserved.
- *
+ *
* This software has been released under the terms of the IBM Public
* License. For details, see the LICENSE file in the top-level source
* directory or online at http://www.openafs.org/dl/license10.html
*/
#include <afsconfig.h>
-#ifdef KERNEL
-#include "afs/param.h"
-#else
#include <afs/param.h>
-#endif
-
-RCSID
- ("$Header$");
#ifdef KERNEL
-#ifndef UKERNEL
-#ifdef RX_KERNEL_TRACE
-#include "rx_kcommon.h"
-#endif
-#if defined(AFS_DARWIN_ENV) || defined(AFS_XBSD_ENV)
-#include "afs/sysincludes.h"
-#else
-#include "h/types.h"
-#include "h/time.h"
-#include "h/stat.h"
-#if defined(AFS_AIX_ENV) || defined(AFS_AUX_ENV) || defined(AFS_SUN5_ENV)
-#include "h/systm.h"
-#endif
-#ifdef AFS_OSF_ENV
-#include <net/net_globals.h>
-#endif /* AFS_OSF_ENV */
-#ifdef AFS_LINUX20_ENV
-#include "h/socket.h"
-#endif
-#include "netinet/in.h"
-#if defined(AFS_SGI_ENV)
-#include "afs/sysincludes.h"
-#endif
-#endif
-#include "afs/afs_args.h"
-#include "afs/afs_osi.h"
-#if (defined(AFS_AUX_ENV) || defined(AFS_AIX_ENV))
-#include "h/systm.h"
-#endif
-#else /* !UKERNEL */
-#include "afs/sysincludes.h"
-#endif /* !UKERNEL */
-#ifdef RXDEBUG
-#undef RXDEBUG /* turn off debugging */
-#endif /* RXDEBUG */
-
-#include "rx_kmutex.h"
-#include "rx/rx_kernel.h"
-#include "rx/rx_clock.h"
-#include "rx/rx_queue.h"
-#include "rx/rx.h"
-#include "rx/rx_globals.h"
-#include "afs/lock.h"
-#include "afsint.h"
-#ifdef AFS_OSF_ENV
-#undef kmem_alloc
-#undef kmem_free
-#undef mem_alloc
-#undef mem_free
-#undef register
-#endif /* AFS_OSF_ENV */
+# ifndef UKERNEL
+# ifdef RX_KERNEL_TRACE
+# include "rx_kcommon.h"
+# endif
+# if defined(AFS_DARWIN_ENV) || defined(AFS_XBSD_ENV)
+# include "afs/sysincludes.h"
+# else
+# include "h/types.h"
+# include "h/time.h"
+# include "h/stat.h"
+# if defined(AFS_AIX_ENV) || defined(AFS_AUX_ENV) || defined(AFS_SUN5_ENV)
+# include "h/systm.h"
+# endif
+# ifdef AFS_OSF_ENV
+# include <net/net_globals.h>
+# endif /* AFS_OSF_ENV */
+# ifdef AFS_LINUX20_ENV
+# include "h/socket.h"
+# endif
+# include "netinet/in.h"
+# if defined(AFS_SGI_ENV)
+# include "afs/sysincludes.h"
+# endif
+# endif
+# include "afs/afs_args.h"
+# if (defined(AFS_AUX_ENV) || defined(AFS_AIX_ENV))
+# include "h/systm.h"
+# endif
+# else /* !UKERNEL */
+# include "afs/sysincludes.h"
+# endif /* !UKERNEL */
+
+# ifdef RXDEBUG
+# undef RXDEBUG /* turn off debugging */
+# endif /* RXDEBUG */
+
+# include "afs/afs_osi.h"
+# include "rx_kmutex.h"
+# include "rx/rx_kernel.h"
+# include "afs/lock.h"
#else /* KERNEL */
-# include <sys/types.h>
-#ifdef AFS_NT40_ENV
-# include <winsock2.h>
-#else /* !AFS_NT40_ENV */
-# include <sys/socket.h>
-# include <sys/file.h>
-# include <netdb.h>
-# include <netinet/in.h>
-# include <sys/stat.h>
-# include <sys/time.h>
-#endif /* !AFS_NT40_ENV */
-#include <string.h>
-#ifdef HAVE_UNISTD_H
-#include <unistd.h>
-#endif
-# include "rx_user.h"
-# include "rx_clock.h"
-# include "rx_queue.h"
-# include "rx.h"
-# include "rx_globals.h"
+# include <roken.h>
#endif /* KERNEL */
+#include "rx.h"
+#include "rx_clock.h"
+#include "rx_queue.h"
+#include "rx_globals.h"
+
#ifdef RX_LOCKS_DB
/* rxdb_fileID is used to identify the lock location, along with line#. */
static int rxdb_fileID = RXDB_FILE_RX_RDWR;
#endif /* RX_LOCKS_DB */
/* rxi_ReadProc -- internal version.
*
- * LOCKS USED -- called at netpri with rx global lock and call->lock held.
+ * LOCKS USED -- called at netpri
*/
int
rxi_ReadProc(struct rx_call *call, char *buf,
do {
if (call->nLeft == 0) {
/* Get next packet */
+ MUTEX_ENTER(&call->lock);
for (;;) {
if (call->error || (call->mode != RX_MODE_RECEIVING)) {
if (call->error) {
+ call->mode = RX_MODE_ERROR;
+ MUTEX_EXIT(&call->lock);
return 0;
}
if (call->mode == RX_MODE_SENDING) {
+ MUTEX_EXIT(&call->lock);
rxi_FlushWrite(call);
+ MUTEX_ENTER(&call->lock);
continue;
}
}
afs_int32 error;
struct rx_connection *conn = call->conn;
queue_Remove(rp);
+#ifdef RX_TRACK_PACKETS
rp->flags &= ~RX_PKTFLAG_RQ;
+#endif
#ifdef RXDEBUG_PACKET
call->rqc--;
#endif /* RXDEBUG_PACKET */
if ((error =
RXS_CheckPacket(conn->securityObject, call,
rp))) {
- /* Used to merely shut down the call, but now we
- * shut down the whole connection since this may
+ /* Used to merely shut down the call, but now we
+ * shut down the whole connection since this may
* indicate an attempt to hijack it */
MUTEX_EXIT(&call->lock);
rp = rxi_SendConnectionAbort(conn, rp, 0, 0);
MUTEX_EXIT(&conn->conn_data_lock);
rxi_FreePacket(rp);
- MUTEX_ENTER(&call->lock);
return 0;
}
call->rnext++;
cp = call->currentPacket = rp;
+#ifdef RX_TRACK_PACKETS
call->currentPacket->flags |= RX_PKTFLAG_CP;
+#endif
call->curvec = 1; /* 0th vec is always header */
- /* begin at the beginning [ more or less ], continue
+ /* begin at the beginning [ more or less ], continue
* on until the end, then stop. */
call->curpos =
(char *)cp->wirevec[1].iov_base +
RX_CALL_REFCOUNT_DELAY);
rxi_SendAck(call, 0, 0, RX_ACK_DELAY, 0);
} else {
- struct clock when, now;
- clock_GetTime(&now);
- when = now;
/* Delay to consolidate ack packets */
- clock_Add(&when, &rx_hardAckDelay);
- if (!call->delayedAckEvent
- || clock_Gt(&call->delayedAckEvent->
- eventTime, &when)) {
- rxevent_Cancel(call->delayedAckEvent,
- call,
- RX_CALL_REFCOUNT_DELAY);
- CALL_HOLD(call, RX_CALL_REFCOUNT_DELAY);
- call->delayedAckEvent =
- rxevent_PostNow(&when, &now,
- rxi_SendDelayedAck, call,
- 0);
- }
+ rxi_PostDelayedAckEvent(call,
+ &rx_hardAckDelay);
}
}
break;
}
}
- /*
+ /*
* If we reach this point either we have no packets in the
* receive queue or the next packet in the queue is not the
* one we are looking for. There is nothing else for us to
/* Are there ever going to be any more packets? */
if (call->flags & RX_CALL_RECEIVE_DONE) {
+ MUTEX_EXIT(&call->lock);
return requestCount - nbytes;
}
/* Wait for in-sequence packet */
osi_rxSleep(&call->rq);
#endif
}
- /* cp is no longer valid since we may have given up the lock */
cp = call->currentPacket;
call->startWait = 0;
#ifdef RX_ENABLE_LOCKS
if (call->error) {
+ MUTEX_EXIT(&call->lock);
return 0;
}
#endif /* RX_ENABLE_LOCKS */
}
+ MUTEX_EXIT(&call->lock);
} else
- /* assert(cp); */
+ /* osi_Assert(cp); */
/* MTUXXX this should be replaced by some error-recovery code before shipping */
/* yes, the following block is allowed to be the ELSE clause (or not) */
/* It's possible for call->nLeft to be smaller than any particular
if (!call->nLeft) {
/* out of packet. Get another one. */
+#ifdef RX_TRACK_PACKETS
call->currentPacket->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
cp = call->currentPacket = (struct rx_packet *)0;
} else if (!call->curlen) {
if (++call->curvec >= cp->niovecs) {
/* current packet is exhausted, get ready for another */
/* don't worry about curvec and stuff, they get set somewhere else */
+#ifdef RX_TRACK_PACKETS
call->currentPacket->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
cp = call->currentPacket = (struct rx_packet *)0;
call->nLeft = 0;
char *tcurpos;
SPLVAR;
- /*
- * Free any packets from the last call to ReadvProc/WritevProc.
- * We do not need the lock because the receiver threads only
- * touch the iovq when the RX_CALL_IOVEC_WAIT flag is set, and the
- * RX_CALL_IOVEC_WAIT is always cleared before returning from
- * ReadvProc/WritevProc.
- */
+ /* Free any packets from the last call to ReadvProc/WritevProc */
if (!queue_IsEmpty(&call->iovq)) {
#ifdef RXDEBUG_PACKET
call->iovqc -=
/*
* Most common case, all of the data is in the current iovec.
- * We do not need the lock because this is the only thread that
- * updates the curlen, curpos, nLeft fields.
- *
* We are relying on nLeft being zero unless the call is in receive mode.
*/
tcurlen = call->curlen;
tnLeft = call->nLeft;
if (!call->error && tcurlen > nbytes && tnLeft > nbytes) {
tcurpos = call->curpos;
- memcpy(buf, tcurpos, nbytes);
+ memcpy(buf, tcurpos, nbytes);
+
call->curpos = tcurpos + nbytes;
call->curlen = tcurlen - nbytes;
call->nLeft = tnLeft - nbytes;
- if (!call->nLeft) {
+ if (!call->nLeft && call->currentPacket != NULL) {
/* out of packet. Get another one. */
- NETPRI;
- MUTEX_ENTER(&call->lock);
rxi_FreePacket(call->currentPacket);
call->currentPacket = (struct rx_packet *)0;
- MUTEX_EXIT(&call->lock);
- USERPRI;
}
return nbytes;
}
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_ReadProc(call, buf, nbytes);
- MUTEX_EXIT(&call->lock);
USERPRI;
return bytes;
}
char *tcurpos;
SPLVAR;
- /*
- * Free any packets from the last call to ReadvProc/WritevProc.
- * We do not need the lock because the receiver threads only
- * touch the iovq when the RX_CALL_IOVEC_WAIT flag is set, and the
- * RX_CALL_IOVEC_WAIT is always cleared before returning from
- * ReadvProc/WritevProc.
- */
+ /* Free any packets from the last call to ReadvProc/WritevProc */
if (!queue_IsEmpty(&call->iovq)) {
#ifdef RXDEBUG_PACKET
call->iovqc -=
/*
* Most common case, all of the data is in the current iovec.
- * We do not need the lock because this is the only thread that
- * updates the curlen, curpos, nLeft fields.
- *
* We are relying on nLeft being zero unless the call is in receive mode.
*/
tcurlen = call->curlen;
if (!call->error && tcurlen >= sizeof(afs_int32)
&& tnLeft >= sizeof(afs_int32)) {
tcurpos = call->curpos;
- memcpy((char *)value, tcurpos, sizeof(afs_int32));
- call->curpos = tcurpos + sizeof(afs_int32);
+
+ memcpy((char *)value, tcurpos, sizeof(afs_int32));
+
+ call->curpos = tcurpos + sizeof(afs_int32);
call->curlen = (u_short)(tcurlen - sizeof(afs_int32));
call->nLeft = (u_short)(tnLeft - sizeof(afs_int32));
if (!call->nLeft && call->currentPacket != NULL) {
/* out of packet. Get another one. */
- NETPRI;
- MUTEX_ENTER(&call->lock);
rxi_FreePacket(call->currentPacket);
call->currentPacket = (struct rx_packet *)0;
- MUTEX_EXIT(&call->lock);
- USERPRI;
}
return sizeof(afs_int32);
}
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_ReadProc(call, (char *)value, sizeof(afs_int32));
- MUTEX_EXIT(&call->lock);
USERPRI;
+
return bytes;
}
afs_int32 error;
struct rx_connection *conn = call->conn;
queue_Remove(rp);
+#ifdef RX_TRACK_PACKETS
rp->flags &= ~RX_PKTFLAG_RQ;
+#endif
#ifdef RXDEBUG_PACKET
call->rqc--;
#endif /* RXDEBUG_PACKET */
* data + the header. */
if ((error =
RXS_CheckPacket(conn->securityObject, call, rp))) {
- /* Used to merely shut down the call, but now we
- * shut down the whole connection since this may
+ /* Used to merely shut down the call, but now we
+ * shut down the whole connection since this may
* indicate an attempt to hijack it */
MUTEX_EXIT(&call->lock);
}
call->rnext++;
curp = call->currentPacket = rp;
+#ifdef RX_TRACK_PACKETS
call->currentPacket->flags |= RX_PKTFLAG_CP;
+#endif
call->curvec = 1; /* 0th vec is always header */
cur_iov = &curp->wirevec[1];
- /* begin at the beginning [ more or less ], continue
+ /* begin at the beginning [ more or less ], continue
* on until the end, then stop. */
call->curpos =
(char *)curp->wirevec[1].iov_base +
if (!call->nLeft) {
/* out of packet. Get another one. */
+#ifdef RX_TRACK_PACKETS
curp->flags &= ~RX_PKTFLAG_CP;
curp->flags |= RX_PKTFLAG_IOVQ;
+#endif
queue_Append(&call->iovq, curp);
#ifdef RXDEBUG_PACKET
call->iovqc++;
if (++call->curvec >= curp->niovecs) {
/* current packet is exhausted, get ready for another */
/* don't worry about curvec and stuff, they get set somewhere else */
+#ifdef RX_TRACK_PACKETS
curp->flags &= ~RX_PKTFLAG_CP;
curp->flags |= RX_PKTFLAG_IOVQ;
+#endif
queue_Append(&call->iovq, curp);
#ifdef RXDEBUG_PACKET
call->iovqc++;
rxi_SendAck(call, 0, serial, RX_ACK_DELAY, 0);
didHardAck = 1;
} else {
- struct clock when, now;
- clock_GetTime(&now);
- when = now;
/* Delay to consolidate ack packets */
- clock_Add(&when, &rx_hardAckDelay);
- if (!call->delayedAckEvent
- || clock_Gt(&call->delayedAckEvent->eventTime, &when)) {
- rxevent_Cancel(call->delayedAckEvent, call,
- RX_CALL_REFCOUNT_DELAY);
- CALL_HOLD(call, RX_CALL_REFCOUNT_DELAY);
- call->delayedAckEvent =
- rxevent_PostNow(&when, &now, rxi_SendDelayedAck, call, 0);
- }
+ rxi_PostDelayedAckEvent(call, &rx_hardAckDelay);
}
}
return didHardAck;
* except the last packet (new current packet) are moved to the iovq
* while the application is processing the data.
*
- * LOCKS USED -- called at netpri with rx global lock and call->lock held.
+ * LOCKS USED -- called at netpri.
*/
int
rxi_ReadvProc(struct rx_call *call, struct iovec *iov, int *nio, int maxio,
int nbytes)
{
- int requestCount;
- int nextio;
-
- requestCount = nbytes;
- nextio = 0;
+ int bytes;
/* Free any packets from the last call to ReadvProc/WritevProc */
if (queue_IsNotEmpty(&call->iovq)) {
rxi_FlushWrite(call);
}
- if (call->error) {
- return 0;
- }
+ MUTEX_ENTER(&call->lock);
+ if (call->error)
+ goto error;
/* Get whatever data is currently available in the receive queue.
* If rxi_FillReadVec sends an ack packet then it is possible
call->startWait = 0;
}
call->flags &= ~RX_CALL_IOVEC_WAIT;
-#ifdef RX_ENABLE_LOCKS
- if (call->error) {
- return 0;
- }
-#endif /* RX_ENABLE_LOCKS */
+
+ if (call->error)
+ goto error;
call->iov = NULL;
*nio = call->iovNext;
- return nbytes - call->iovNBytes;
+ bytes = nbytes - call->iovNBytes;
+ MUTEX_EXIT(&call->lock);
+ return bytes;
+
+ error:
+ MUTEX_EXIT(&call->lock);
+ call->mode = RX_MODE_ERROR;
+ return 0;
}
int
SPLVAR;
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_ReadvProc(call, iov, nio, maxio, nbytes);
- MUTEX_EXIT(&call->lock);
USERPRI;
return bytes;
}
/* rxi_WriteProc -- internal version.
*
- * LOCKS USED -- called at netpri with rx global lock and call->lock held. */
+ * LOCKS USED -- called at netpri
+ */
int
rxi_WriteProc(struct rx_call *call, char *buf,
&& (call->mode == RX_MODE_RECEIVING)) {
call->mode = RX_MODE_SENDING;
if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
cp = call->currentPacket = (struct rx_packet *)0;
call->nLeft = 0;
* anyway. */
do {
if (call->nFree == 0) {
+ MUTEX_ENTER(&call->lock);
+ cp = call->currentPacket;
+ if (call->error)
+ call->mode = RX_MODE_ERROR;
if (!call->error && cp) {
/* Clear the current packet now so that if
- * we are forced to wait and drop the lock
- * the packet we are planning on using
+ * we are forced to wait and drop the lock
+ * the packet we are planning on using
* cannot be freed.
*/
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
call->currentPacket = (struct rx_packet *)0;
-#ifdef AFS_GLOBAL_RXLOCK_KERNEL
- /* Wait until TQ_BUSY is reset before adding any
- * packets to the transmit queue
- */
- while (call->flags & RX_CALL_TQ_BUSY) {
- call->flags |= RX_CALL_TQ_WAIT;
-#ifdef RX_ENABLE_LOCKS
- CV_WAIT(&call->cv_tq, &call->lock);
-#else /* RX_ENABLE_LOCKS */
- osi_rxSleep(&call->tq);
-#endif /* RX_ENABLE_LOCKS */
- }
-#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
clock_NewTime(); /* Bogus: need new time package */
- /* The 0, below, specifies that it is not the last packet:
+ /* The 0, below, specifies that it is not the last packet:
* there will be others. PrepareSendPacket may
* alter the packet length by up to
* conn->securityMaxTrailerSize */
hadd32(call->bytesSent, cp->length);
rxi_PrepareSendPacket(call, cp, 0);
+#ifdef AFS_GLOBAL_RXLOCK_KERNEL
+ /* PrepareSendPacket drops the call lock */
+ rxi_WaitforTQBusy(call);
+#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
+#ifdef RX_TRACK_PACKETS
cp->flags |= RX_PKTFLAG_TQ;
+#endif
queue_Append(&call->tq, cp);
#ifdef RXDEBUG_PACKET
call->tqc++;
#endif /* RXDEBUG_PACKET */
cp = (struct rx_packet *)0;
- if (!
- (call->
- flags & (RX_CALL_FAST_RECOVER |
- RX_CALL_FAST_RECOVER_WAIT))) {
- rxi_Start(0, call, 0, 0);
+ /* If the call is in recovery, let it exhaust its current
+ * retransmit queue before forcing it to send new packets
+ */
+ if (!(call->flags & (RX_CALL_FAST_RECOVER))) {
+ rxi_Start(call, 0);
}
} else if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
cp = call->currentPacket = (struct rx_packet *)0;
}
call->startWait = 0;
#ifdef RX_ENABLE_LOCKS
if (call->error) {
+ call->mode = RX_MODE_ERROR;
+ MUTEX_EXIT(&call->lock);
return 0;
}
#endif /* RX_ENABLE_LOCKS */
}
if ((cp = rxi_AllocSendPacket(call, nbytes))) {
+#ifdef RX_TRACK_PACKETS
cp->flags |= RX_PKTFLAG_CP;
+#endif
call->currentPacket = cp;
call->nFree = cp->length;
call->curvec = 1; /* 0th vec is always header */
- /* begin at the beginning [ more or less ], continue
+ /* begin at the beginning [ more or less ], continue
* on until the end, then stop. */
call->curpos =
(char *)cp->wirevec[1].iov_base +
cp->wirevec[1].iov_len - call->conn->securityHeaderSize;
}
if (call->error) {
+ call->mode = RX_MODE_ERROR;
if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
call->currentPacket = NULL;
}
+ MUTEX_EXIT(&call->lock);
return 0;
}
+ MUTEX_EXIT(&call->lock);
}
if (cp && (int)call->nFree < nbytes) {
char *tcurpos;
SPLVAR;
- /*
- * Free any packets from the last call to ReadvProc/WritevProc.
- * We do not need the lock because the receiver threads only
- * touch the iovq when the RX_CALL_IOVEC_WAIT flag is set, and the
- * RX_CALL_IOVEC_WAIT is always cleared before returning from
- * ReadvProc/WritevProc.
- */
+ /* Free any packets from the last call to ReadvProc/WritevProc */
if (queue_IsNotEmpty(&call->iovq)) {
#ifdef RXDEBUG_PACKET
call->iovqc -=
/*
* Most common case: all of the data fits in the current iovec.
- * We do not need the lock because this is the only thread that
- * updates the curlen, curpos, nFree fields.
- *
* We are relying on nFree being zero unless the call is in send mode.
*/
tcurlen = (int)call->curlen;
tnFree = (int)call->nFree;
if (!call->error && tcurlen >= nbytes && tnFree >= nbytes) {
tcurpos = call->curpos;
+
memcpy(tcurpos, buf, nbytes);
call->curpos = tcurpos + nbytes;
call->curlen = (u_short)(tcurlen - nbytes);
}
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_WriteProc(call, buf, nbytes);
- MUTEX_EXIT(&call->lock);
USERPRI;
return bytes;
}
char *tcurpos;
SPLVAR;
- /*
- * Free any packets from the last call to ReadvProc/WritevProc.
- * We do not need the lock because the receiver threads only
- * touch the iovq when the RX_CALL_IOVEC_WAIT flag is set, and the
- * RX_CALL_IOVEC_WAIT is always cleared before returning from
- * ReadvProc/WritevProc.
- */
if (queue_IsNotEmpty(&call->iovq)) {
#ifdef RXDEBUG_PACKET
call->iovqc -=
/*
* Most common case: all of the data fits in the current iovec.
- * We do not need the lock because this is the only thread that
- * updates the curlen, curpos, nFree fields.
- *
* We are relying on nFree being zero unless the call is in send mode.
*/
tcurlen = call->curlen;
if (!call->error && tcurlen >= sizeof(afs_int32)
&& tnFree >= sizeof(afs_int32)) {
tcurpos = call->curpos;
+
if (!((size_t)tcurpos & (sizeof(afs_int32) - 1))) {
*((afs_int32 *) (tcurpos)) = *value;
} else {
}
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_WriteProc(call, (char *)value, sizeof(afs_int32));
- MUTEX_EXIT(&call->lock);
USERPRI;
return bytes;
}
* Fill in an iovec to point to data in packet buffers. The application
* calls rxi_WritevProc when the buffers are full.
*
- * LOCKS USED -- called at netpri with rx global lock and call->lock held. */
+ * LOCKS USED -- called at netpri.
+ */
-int
+static int
rxi_WritevAlloc(struct rx_call *call, struct iovec *iov, int *nio, int maxio,
int nbytes)
{
int nextio;
/* Temporary values, real work is done in rxi_WritevProc */
int tnFree;
- int tcurvec;
+ unsigned int tcurvec;
char *tcurpos;
int tcurlen;
&& (call->mode == RX_MODE_RECEIVING)) {
call->mode = RX_MODE_SENDING;
if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
cp = call->currentPacket = (struct rx_packet *)0;
call->nLeft = 0;
tcurpos = call->curpos;
tcurlen = call->curlen;
do {
- unsigned int t;
+ int t;
if (tnFree == 0) {
/* current packet is full, allocate a new one */
+ MUTEX_ENTER(&call->lock);
cp = rxi_AllocSendPacket(call, nbytes);
+ MUTEX_EXIT(&call->lock);
if (cp == NULL) {
/* out of space, return what we have */
*nio = nextio;
return requestCount - nbytes;
}
+#ifdef RX_TRACK_PACKETS
cp->flags |= RX_PKTFLAG_IOVQ;
+#endif
queue_Append(&call->iovq, cp);
#ifdef RXDEBUG_PACKET
call->iovqc++;
SPLVAR;
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_WritevAlloc(call, iov, nio, maxio, nbytes);
- MUTEX_EXIT(&call->lock);
USERPRI;
return bytes;
}
*
* Send buffers allocated in rxi_WritevAlloc.
*
- * LOCKS USED -- called at netpri with rx global lock and call->lock held. */
-
+ * LOCKS USED -- called at netpri.
+ */
int
rxi_WritevProc(struct rx_call *call, struct iovec *iov, int nio, int nbytes)
{
struct rx_packet *cp = NULL;
+#ifdef RX_TRACK_PACKETS
struct rx_packet *p, *np;
+#endif
int nextio;
int requestCount;
struct rx_queue tmpq;
requestCount = nbytes;
nextio = 0;
- if (call->mode != RX_MODE_SENDING) {
+ MUTEX_ENTER(&call->lock);
+ if (call->error) {
+ call->mode = RX_MODE_ERROR;
+ } else if (call->mode != RX_MODE_SENDING) {
call->error = RX_PROTOCOL_ERROR;
}
#ifdef AFS_GLOBAL_RXLOCK_KERNEL
- /* Wait until TQ_BUSY is reset before trying to move any
- * packets to the transmit queue. */
- while (!call->error && call->flags & RX_CALL_TQ_BUSY) {
- call->flags |= RX_CALL_TQ_WAIT;
-#ifdef RX_ENABLE_LOCKS
- CV_WAIT(&call->cv_tq, &call->lock);
-#else /* RX_ENABLE_LOCKS */
- osi_rxSleep(&call->tq);
-#endif /* RX_ENABLE_LOCKS */
- }
+ rxi_WaitforTQBusy(call);
#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
- /* cp is no longer valid since we may have given up the lock */
cp = call->currentPacket;
if (call->error) {
+ call->mode = RX_MODE_ERROR;
+ MUTEX_EXIT(&call->lock);
if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
cp->flags |= RX_PKTFLAG_IOVQ;
+#endif
queue_Prepend(&call->iovq, cp);
#ifdef RXDEBUG_PACKET
call->iovqc++;
#endif /* RXDEBUG_PACKET */
- cp = call->currentPacket = (struct rx_packet *)0;
+ call->currentPacket = (struct rx_packet *)0;
}
#ifdef RXDEBUG_PACKET
call->iovqc -=
do {
if (call->nFree == 0 && cp) {
clock_NewTime(); /* Bogus: need new time package */
- /* The 0, below, specifies that it is not the last packet:
+ /* The 0, below, specifies that it is not the last packet:
* there will be others. PrepareSendPacket may
* alter the packet length by up to
* conn->securityMaxTrailerSize */
hadd32(call->bytesSent, cp->length);
rxi_PrepareSendPacket(call, cp, 0);
+#ifdef AFS_GLOBAL_RXLOCK_KERNEL
+ /* PrepareSendPacket drops the call lock */
+ rxi_WaitforTQBusy(call);
+#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
queue_Append(&tmpq, cp);
#ifdef RXDEBUG_PACKET
tmpqc++;
/* The head of the iovq is now the current packet */
if (nbytes) {
if (queue_IsEmpty(&call->iovq)) {
+ MUTEX_EXIT(&call->lock);
call->error = RX_PROTOCOL_ERROR;
#ifdef RXDEBUG_PACKET
tmpqc -=
}
cp = queue_First(&call->iovq, rx_packet);
queue_Remove(cp);
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_IOVQ;
+#endif
#ifdef RXDEBUG_PACKET
call->iovqc--;
#endif /* RXDEBUG_PACKET */
+#ifdef RX_TRACK_PACKETS
cp->flags |= RX_PKTFLAG_CP;
+#endif
call->currentPacket = cp;
call->nFree = cp->length;
call->curvec = 1;
if (iov[nextio].iov_base != call->curpos
|| iov[nextio].iov_len > (int)call->curlen) {
call->error = RX_PROTOCOL_ERROR;
+ MUTEX_EXIT(&call->lock);
if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
queue_Prepend(&tmpq, cp);
#ifdef RXDEBUG_PACKET
tmpqc++;
/* Move the packets from the temporary queue onto the transmit queue.
* We may end up with more than call->twind packets on the queue. */
-
+
+#ifdef RX_TRACK_PACKETS
for (queue_Scan(&tmpq, p, np, rx_packet))
{
p->flags |= RX_PKTFLAG_TQ;
}
+#endif
+
+ if (call->error)
+ call->mode = RX_MODE_ERROR;
+
queue_SpliceAppend(&call->tq, &tmpq);
- if (!(call->flags & (RX_CALL_FAST_RECOVER | RX_CALL_FAST_RECOVER_WAIT))) {
- rxi_Start(0, call, 0, 0);
+ /* If the call is in recovery, let it exhaust its current retransmit
+ * queue before forcing it to send new packets
+ */
+ if (!(call->flags & RX_CALL_FAST_RECOVER)) {
+ rxi_Start(call, 0);
}
/* Wait for the length of the transmit queue to fall below call->twind */
#endif
call->startWait = 0;
}
+
/* cp is no longer valid since we may have given up the lock */
cp = call->currentPacket;
if (call->error) {
+ call->mode = RX_MODE_ERROR;
+ call->currentPacket = NULL;
+ MUTEX_EXIT(&call->lock);
if (cp) {
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
rxi_FreePacket(cp);
- cp = call->currentPacket = (struct rx_packet *)0;
}
return 0;
}
+ MUTEX_EXIT(&call->lock);
return requestCount - nbytes;
}
SPLVAR;
NETPRI;
- MUTEX_ENTER(&call->lock);
bytes = rxi_WritevProc(call, iov, nio, nbytes);
- MUTEX_EXIT(&call->lock);
USERPRI;
return bytes;
}
/* Flush any buffered data to the stream, switch to read mode
- * (clients) or to EOF mode (servers) */
+ * (clients) or to EOF mode (servers)
+ *
+ * LOCKS HELD: called at netpri.
+ */
void
rxi_FlushWrite(struct rx_call *call)
{
}
#endif
-#ifdef AFS_GLOBAL_RXLOCK_KERNEL
- /* Wait until TQ_BUSY is reset before adding any
- * packets to the transmit queue
- */
- while (call->flags & RX_CALL_TQ_BUSY) {
- call->flags |= RX_CALL_TQ_WAIT;
-#ifdef RX_ENABLE_LOCKS
- CV_WAIT(&call->cv_tq, &call->lock);
-#else /* RX_ENABLE_LOCKS */
- osi_rxSleep(&call->tq);
-#endif /* RX_ENABLE_LOCKS */
- }
-#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
+ MUTEX_ENTER(&call->lock);
+ if (call->error)
+ call->mode = RX_MODE_ERROR;
- /* cp is no longer valid since we may have given up the lock */
cp = call->currentPacket;
if (cp) {
/* cp->length is only supposed to be the user's data */
- /* cp->length was already set to (then-current)
+ /* cp->length was already set to (then-current)
* MaxUserDataSize or less. */
+#ifdef RX_TRACK_PACKETS
cp->flags &= ~RX_PKTFLAG_CP;
+#endif
cp->length -= call->nFree;
call->currentPacket = (struct rx_packet *)0;
call->nFree = 0;
/* The 1 specifies that this is the last packet */
hadd32(call->bytesSent, cp->length);
rxi_PrepareSendPacket(call, cp, 1);
+#ifdef AFS_GLOBAL_RXLOCK_KERNEL
+ /* PrepareSendPacket drops the call lock */
+ rxi_WaitforTQBusy(call);
+#endif /* AFS_GLOBAL_RXLOCK_KERNEL */
+#ifdef RX_TRACK_PACKETS
cp->flags |= RX_PKTFLAG_TQ;
+#endif
queue_Append(&call->tq, cp);
#ifdef RXDEBUG_PACKET
call->tqc++;
#endif /* RXDEBUG_PACKET */
- if (!
- (call->
- flags & (RX_CALL_FAST_RECOVER | RX_CALL_FAST_RECOVER_WAIT))) {
- rxi_Start(0, call, 0, 0);
+
+ /* If the call is in recovery, let it exhaust its current retransmit
+ * queue before forcing it to send new packets
+ */
+ if (!(call->flags & RX_CALL_FAST_RECOVER)) {
+ rxi_Start(call, 0);
}
+ MUTEX_EXIT(&call->lock);
}
}
{
SPLVAR;
NETPRI;
- MUTEX_ENTER(&call->lock);
rxi_FlushWrite(call);
- MUTEX_EXIT(&call->lock);
USERPRI;
}