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/*
* Copyright ( c ) 2006 Oracle . All rights reserved .
*
* This software is available to you under a choice of one of two
* licenses . You may choose to be licensed under the terms of the GNU
* General Public License ( GPL ) Version 2 , available from the file
* COPYING in the main directory of this source tree , or the
* OpenIB . org BSD license below :
*
* Redistribution and use in source and binary forms , with or
* without modification , are permitted provided that the following
* conditions are met :
*
* - Redistributions of source code must retain the above
* copyright notice , this list of conditions and the following
* disclaimer .
*
* - Redistributions in binary form must reproduce the above
* copyright notice , this list of conditions and the following
* disclaimer in the documentation and / or other materials
* provided with the distribution .
*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND ,
* EXPRESS OR IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY , FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT . IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER LIABILITY , WHETHER IN AN
* ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM , OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE .
*
*/
# include <linux/kernel.h>
# include <linux/in.h>
# include <linux/device.h>
# include <linux/dmapool.h>
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# include <linux/ratelimit.h>
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# include "rds_single_path.h"
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# include "rds.h"
# include "ib.h"
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/*
* Convert IB - specific error message to RDS error message and call core
* completion handler .
*/
static void rds_ib_send_complete ( struct rds_message * rm ,
int wc_status ,
void ( * complete ) ( struct rds_message * rm , int status ) )
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{
int notify_status ;
switch ( wc_status ) {
case IB_WC_WR_FLUSH_ERR :
return ;
case IB_WC_SUCCESS :
notify_status = RDS_RDMA_SUCCESS ;
break ;
case IB_WC_REM_ACCESS_ERR :
notify_status = RDS_RDMA_REMOTE_ERROR ;
break ;
default :
notify_status = RDS_RDMA_OTHER_ERROR ;
break ;
}
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complete ( rm , notify_status ) ;
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}
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static void rds_ib_send_unmap_data ( struct rds_ib_connection * ic ,
struct rm_data_op * op ,
int wc_status )
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{
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if ( op - > op_nents )
ib_dma_unmap_sg ( ic - > i_cm_id - > device ,
op - > op_sg , op - > op_nents ,
DMA_TO_DEVICE ) ;
}
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static void rds_ib_send_unmap_rdma ( struct rds_ib_connection * ic ,
struct rm_rdma_op * op ,
int wc_status )
{
if ( op - > op_mapped ) {
ib_dma_unmap_sg ( ic - > i_cm_id - > device ,
op - > op_sg , op - > op_nents ,
op - > op_write ? DMA_TO_DEVICE : DMA_FROM_DEVICE ) ;
op - > op_mapped = 0 ;
}
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/* If the user asked for a completion notification on this
* message , we can implement three different semantics :
* 1. Notify when we received the ACK on the RDS message
* that was queued with the RDMA . This provides reliable
* notification of RDMA status at the expense of a one - way
* packet delay .
* 2. Notify when the IB stack gives us the completion event for
* the RDMA operation .
* 3. Notify when the IB stack gives us the completion event for
* the accompanying RDS messages .
* Here , we implement approach # 3. To implement approach # 2 ,
* we would need to take an event for the rdma WR . To implement # 1 ,
* don ' t call rds_rdma_send_complete at all , and fall back to the notify
* handling in the ACK processing code .
*
* Note : There ' s no need to explicitly sync any RDMA buffers using
* ib_dma_sync_sg_for_cpu - the completion for the RDMA
* operation itself unmapped the RDMA buffers , which takes care
* of synching .
*/
rds_ib_send_complete ( container_of ( op , struct rds_message , rdma ) ,
wc_status , rds_rdma_send_complete ) ;
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if ( op - > op_write )
rds_stats_add ( s_send_rdma_bytes , op - > op_bytes ) ;
else
rds_stats_add ( s_recv_rdma_bytes , op - > op_bytes ) ;
}
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static void rds_ib_send_unmap_atomic ( struct rds_ib_connection * ic ,
struct rm_atomic_op * op ,
int wc_status )
{
/* unmap atomic recvbuf */
if ( op - > op_mapped ) {
ib_dma_unmap_sg ( ic - > i_cm_id - > device , op - > op_sg , 1 ,
DMA_FROM_DEVICE ) ;
op - > op_mapped = 0 ;
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}
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rds_ib_send_complete ( container_of ( op , struct rds_message , atomic ) ,
wc_status , rds_atomic_send_complete ) ;
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if ( op - > op_type = = RDS_ATOMIC_TYPE_CSWP )
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rds_ib_stats_inc ( s_ib_atomic_cswp ) ;
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else
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rds_ib_stats_inc ( s_ib_atomic_fadd ) ;
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}
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/*
* Unmap the resources associated with a struct send_work .
*
* Returns the rm for no good reason other than it is unobtainable
* other than by switching on wr . opcode , currently , and the caller ,
* the event handler , needs it .
*/
static struct rds_message * rds_ib_send_unmap_op ( struct rds_ib_connection * ic ,
struct rds_ib_send_work * send ,
int wc_status )
{
struct rds_message * rm = NULL ;
/* In the error case, wc.opcode sometimes contains garbage */
switch ( send - > s_wr . opcode ) {
case IB_WR_SEND :
if ( send - > s_op ) {
rm = container_of ( send - > s_op , struct rds_message , data ) ;
rds_ib_send_unmap_data ( ic , send - > s_op , wc_status ) ;
}
break ;
case IB_WR_RDMA_WRITE :
case IB_WR_RDMA_READ :
if ( send - > s_op ) {
rm = container_of ( send - > s_op , struct rds_message , rdma ) ;
rds_ib_send_unmap_rdma ( ic , send - > s_op , wc_status ) ;
}
break ;
case IB_WR_ATOMIC_FETCH_AND_ADD :
case IB_WR_ATOMIC_CMP_AND_SWP :
if ( send - > s_op ) {
rm = container_of ( send - > s_op , struct rds_message , atomic ) ;
rds_ib_send_unmap_atomic ( ic , send - > s_op , wc_status ) ;
}
break ;
default :
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printk_ratelimited ( KERN_NOTICE
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" RDS/IB: %s: unexpected opcode 0x%x in WR! \n " ,
__func__ , send - > s_wr . opcode ) ;
break ;
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}
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send - > s_wr . opcode = 0xdead ;
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return rm ;
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}
void rds_ib_send_init_ring ( struct rds_ib_connection * ic )
{
struct rds_ib_send_work * send ;
u32 i ;
for ( i = 0 , send = ic - > i_sends ; i < ic - > i_send_ring . w_nr ; i + + , send + + ) {
struct ib_sge * sge ;
send - > s_op = NULL ;
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send - > s_wr . wr_id = i ;
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send - > s_wr . sg_list = send - > s_sge ;
send - > s_wr . ex . imm_data = 0 ;
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sge = & send - > s_sge [ 0 ] ;
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sge - > addr = ic - > i_send_hdrs_dma + ( i * sizeof ( struct rds_header ) ) ;
sge - > length = sizeof ( struct rds_header ) ;
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sge - > lkey = ic - > i_pd - > local_dma_lkey ;
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send - > s_sge [ 1 ] . lkey = ic - > i_pd - > local_dma_lkey ;
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}
}
void rds_ib_send_clear_ring ( struct rds_ib_connection * ic )
{
struct rds_ib_send_work * send ;
u32 i ;
for ( i = 0 , send = ic - > i_sends ; i < ic - > i_send_ring . w_nr ; i + + , send + + ) {
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if ( send - > s_op & & send - > s_wr . opcode ! = 0xdead )
rds_ib_send_unmap_op ( ic , send , IB_WC_WR_FLUSH_ERR ) ;
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}
}
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/*
* The only fast path caller always has a non - zero nr , so we don ' t
* bother testing nr before performing the atomic sub .
*/
static void rds_ib_sub_signaled ( struct rds_ib_connection * ic , int nr )
{
if ( ( atomic_sub_return ( nr , & ic - > i_signaled_sends ) = = 0 ) & &
waitqueue_active ( & rds_ib_ring_empty_wait ) )
wake_up ( & rds_ib_ring_empty_wait ) ;
BUG_ON ( atomic_read ( & ic - > i_signaled_sends ) < 0 ) ;
}
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/*
* The _oldest / _free ring operations here race cleanly with the alloc / unalloc
* operations performed in the send path . As the sender allocs and potentially
* unallocs the next free entry in the ring it doesn ' t alter which is
* the next to be freed , which is what this is concerned with .
*/
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void rds_ib_send_cqe_handler ( struct rds_ib_connection * ic , struct ib_wc * wc )
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{
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struct rds_message * rm = NULL ;
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struct rds_connection * conn = ic - > conn ;
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struct rds_ib_send_work * send ;
u32 completed ;
u32 oldest ;
u32 i = 0 ;
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int nr_sig = 0 ;
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rdsdebug ( " wc wr_id 0x%llx status %u (%s) byte_len %u imm_data %u \n " ,
( unsigned long long ) wc - > wr_id , wc - > status ,
ib_wc_status_msg ( wc - > status ) , wc - > byte_len ,
be32_to_cpu ( wc - > ex . imm_data ) ) ;
rds_ib_stats_inc ( s_ib_tx_cq_event ) ;
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if ( wc - > wr_id = = RDS_IB_ACK_WR_ID ) {
if ( time_after ( jiffies , ic - > i_ack_queued + HZ / 2 ) )
rds_ib_stats_inc ( s_ib_tx_stalled ) ;
rds_ib_ack_send_complete ( ic ) ;
return ;
}
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oldest = rds_ib_ring_oldest ( & ic - > i_send_ring ) ;
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completed = rds_ib_ring_completed ( & ic - > i_send_ring , wc - > wr_id , oldest ) ;
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for ( i = 0 ; i < completed ; i + + ) {
send = & ic - > i_sends [ oldest ] ;
if ( send - > s_wr . send_flags & IB_SEND_SIGNALED )
nr_sig + + ;
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rm = rds_ib_send_unmap_op ( ic , send , wc - > status ) ;
if ( time_after ( jiffies , send - > s_queued + HZ / 2 ) )
rds_ib_stats_inc ( s_ib_tx_stalled ) ;
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if ( send - > s_op ) {
if ( send - > s_op = = rm - > m_final_op ) {
/* If anyone waited for this message to get
* flushed out , wake them up now
*/
rds_message_unmapped ( rm ) ;
}
rds_message_put ( rm ) ;
send - > s_op = NULL ;
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}
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oldest = ( oldest + 1 ) % ic - > i_send_ring . w_nr ;
}
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rds_ib_ring_free ( & ic - > i_send_ring , completed ) ;
rds_ib_sub_signaled ( ic , nr_sig ) ;
nr_sig = 0 ;
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if ( test_and_clear_bit ( RDS_LL_SEND_FULL , & conn - > c_flags ) | |
test_bit ( 0 , & conn - > c_map_queued ) )
queue_delayed_work ( rds_wq , & conn - > c_send_w , 0 ) ;
/* We expect errors as the qp is drained during shutdown */
if ( wc - > status ! = IB_WC_SUCCESS & & rds_conn_up ( conn ) ) {
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rds_ib_conn_error ( conn , " send completion on <%pI4,%pI4> had status %u (%s), disconnecting and reconnecting \n " ,
& conn - > c_laddr , & conn - > c_faddr , wc - > status ,
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ib_wc_status_msg ( wc - > status ) ) ;
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}
}
/*
* This is the main function for allocating credits when sending
* messages .
*
* Conceptually , we have two counters :
* - send credits : this tells us how many WRs we ' re allowed
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* to submit without overruning the receiver ' s queue . For
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* each SEND WR we post , we decrement this by one .
*
* - posted credits : this tells us how many WRs we recently
* posted to the receive queue . This value is transferred
* to the peer as a " credit update " in a RDS header field .
* Every time we transmit credits to the peer , we subtract
* the amount of transferred credits from this counter .
*
* It is essential that we avoid situations where both sides have
* exhausted their send credits , and are unable to send new credits
* to the peer . We achieve this by requiring that we send at least
* one credit update to the peer before exhausting our credits .
* When new credits arrive , we subtract one credit that is withheld
* until we ' ve posted new buffers and are ready to transmit these
* credits ( see rds_ib_send_add_credits below ) .
*
* The RDS send code is essentially single - threaded ; rds_send_xmit
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* sets RDS_IN_XMIT to ensure exclusive access to the send ring .
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* However , the ACK sending code is independent and can race with
* message SENDs .
*
* In the send path , we need to update the counters for send credits
* and the counter of posted buffers atomically - when we use the
* last available credit , we cannot allow another thread to race us
* and grab the posted credits counter . Hence , we have to use a
* spinlock to protect the credit counter , or use atomics .
*
* Spinlocks shared between the send and the receive path are bad ,
* because they create unnecessary delays . An early implementation
* using a spinlock showed a 5 % degradation in throughput at some
* loads .
*
* This implementation avoids spinlocks completely , putting both
* counters into a single atomic , and updating that atomic using
* atomic_add ( in the receive path , when receiving fresh credits ) ,
* and using atomic_cmpxchg when updating the two counters .
*/
int rds_ib_send_grab_credits ( struct rds_ib_connection * ic ,
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u32 wanted , u32 * adv_credits , int need_posted , int max_posted )
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{
unsigned int avail , posted , got = 0 , advertise ;
long oldval , newval ;
* adv_credits = 0 ;
if ( ! ic - > i_flowctl )
return wanted ;
try_again :
advertise = 0 ;
oldval = newval = atomic_read ( & ic - > i_credits ) ;
posted = IB_GET_POST_CREDITS ( oldval ) ;
avail = IB_GET_SEND_CREDITS ( oldval ) ;
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rdsdebug ( " wanted=%u credits=%u posted=%u \n " ,
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wanted , avail , posted ) ;
/* The last credit must be used to send a credit update. */
if ( avail & & ! posted )
avail - - ;
if ( avail < wanted ) {
struct rds_connection * conn = ic - > i_cm_id - > context ;
/* Oops, there aren't that many credits left! */
set_bit ( RDS_LL_SEND_FULL , & conn - > c_flags ) ;
got = avail ;
} else {
/* Sometimes you get what you want, lalala. */
got = wanted ;
}
newval - = IB_SET_SEND_CREDITS ( got ) ;
/*
* If need_posted is non - zero , then the caller wants
* the posted regardless of whether any send credits are
* available .
*/
if ( posted & & ( got | | need_posted ) ) {
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advertise = min_t ( unsigned int , posted , max_posted ) ;
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newval - = IB_SET_POST_CREDITS ( advertise ) ;
}
/* Finally bill everything */
if ( atomic_cmpxchg ( & ic - > i_credits , oldval , newval ) ! = oldval )
goto try_again ;
* adv_credits = advertise ;
return got ;
}
void rds_ib_send_add_credits ( struct rds_connection * conn , unsigned int credits )
{
struct rds_ib_connection * ic = conn - > c_transport_data ;
if ( credits = = 0 )
return ;
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rdsdebug ( " credits=%u current=%u%s \n " ,
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credits ,
IB_GET_SEND_CREDITS ( atomic_read ( & ic - > i_credits ) ) ,
test_bit ( RDS_LL_SEND_FULL , & conn - > c_flags ) ? " , ll_send_full " : " " ) ;
atomic_add ( IB_SET_SEND_CREDITS ( credits ) , & ic - > i_credits ) ;
if ( test_and_clear_bit ( RDS_LL_SEND_FULL , & conn - > c_flags ) )
queue_delayed_work ( rds_wq , & conn - > c_send_w , 0 ) ;
WARN_ON ( IB_GET_SEND_CREDITS ( credits ) > = 16384 ) ;
rds_ib_stats_inc ( s_ib_rx_credit_updates ) ;
}
void rds_ib_advertise_credits ( struct rds_connection * conn , unsigned int posted )
{
struct rds_ib_connection * ic = conn - > c_transport_data ;
if ( posted = = 0 )
return ;
atomic_add ( IB_SET_POST_CREDITS ( posted ) , & ic - > i_credits ) ;
/* Decide whether to send an update to the peer now.
* If we would send a credit update for every single buffer we
* post , we would end up with an ACK storm ( ACK arrives ,
* consumes buffer , we refill the ring , send ACK to remote
* advertising the newly posted buffer . . . ad inf )
*
* Performance pretty much depends on how often we send
* credit updates - too frequent updates mean lots of ACKs .
* Too infrequent updates , and the peer will run out of
* credits and has to throttle .
* For the time being , 16 seems to be a good compromise .
*/
if ( IB_GET_POST_CREDITS ( atomic_read ( & ic - > i_credits ) ) > = 16 )
set_bit ( IB_ACK_REQUESTED , & ic - > i_ack_flags ) ;
}
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static inline int rds_ib_set_wr_signal_state ( struct rds_ib_connection * ic ,
struct rds_ib_send_work * send ,
bool notify )
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{
/*
* We want to delay signaling completions just enough to get
* the batching benefits but not so much that we create dead time
* on the wire .
*/
if ( ic - > i_unsignaled_wrs - - = = 0 | | notify ) {
ic - > i_unsignaled_wrs = rds_ib_sysctl_max_unsig_wrs ;
send - > s_wr . send_flags | = IB_SEND_SIGNALED ;
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return 1 ;
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}
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return 0 ;
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}
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/*
* This can be called multiple times for a given message . The first time
* we see a message we map its scatterlist into the IB device so that
* we can provide that mapped address to the IB scatter gather entries
* in the IB work requests . We translate the scatterlist into a series
* of work requests that fragment the message . These work requests complete
* in order so we pass ownership of the message to the completion handler
* once we send the final fragment .
*
* The RDS core uses the c_send_lock to only enter this function once
* per connection . This makes sure that the tx ring alloc / unalloc pairs
* don ' t get out of sync and confuse the ring .
*/
int rds_ib_xmit ( struct rds_connection * conn , struct rds_message * rm ,
unsigned int hdr_off , unsigned int sg , unsigned int off )
{
struct rds_ib_connection * ic = conn - > c_transport_data ;
struct ib_device * dev = ic - > i_cm_id - > device ;
struct rds_ib_send_work * send = NULL ;
struct rds_ib_send_work * first ;
struct rds_ib_send_work * prev ;
struct ib_send_wr * failed_wr ;
struct scatterlist * scat ;
u32 pos ;
u32 i ;
u32 work_alloc ;
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u32 credit_alloc = 0 ;
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u32 posted ;
u32 adv_credits = 0 ;
int send_flags = 0 ;
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int bytes_sent = 0 ;
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int ret ;
int flow_controlled = 0 ;
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int nr_sig = 0 ;
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BUG_ON ( off % RDS_FRAG_SIZE ) ;
BUG_ON ( hdr_off ! = 0 & & hdr_off ! = sizeof ( struct rds_header ) ) ;
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/* Do not send cong updates to IB loopback */
if ( conn - > c_loopback
& & rm - > m_inc . i_hdr . h_flags & RDS_FLAG_CONG_BITMAP ) {
rds_cong_map_updated ( conn - > c_fcong , ~ ( u64 ) 0 ) ;
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scat = & rm - > data . op_sg [ sg ] ;
rds: prevent BUG_ON triggered on congestion update to loopback
After congestion update on a local connection, when rds_ib_xmit returns
less bytes than that are there in the message, rds_send_xmit calls
back rds_ib_xmit with an offset that causes BUG_ON(off & RDS_FRAG_SIZE)
to trigger.
For a 4Kb PAGE_SIZE rds_ib_xmit returns min(8240,4096)=4096 when actually
the message contains 8240 bytes. rds_send_xmit thinks there is more to send
and calls rds_ib_xmit again with a data offset "off" of 4096-48(rds header)
=4048 bytes thus hitting the BUG_ON(off & RDS_FRAG_SIZE) [RDS_FRAG_SIZE=4k].
The commit 6094628bfd94323fc1cea05ec2c6affd98c18f7f
"rds: prevent BUG_ON triggering on congestion map updates" introduced
this regression. That change was addressing the triggering of a different
BUG_ON in rds_send_xmit() on PowerPC architecture with 64Kbytes PAGE_SIZE:
BUG_ON(ret != 0 &&
conn->c_xmit_sg == rm->data.op_nents);
This was the sequence it was going through:
(rds_ib_xmit)
/* Do not send cong updates to IB loopback */
if (conn->c_loopback
&& rm->m_inc.i_hdr.h_flags & RDS_FLAG_CONG_BITMAP) {
rds_cong_map_updated(conn->c_fcong, ~(u64) 0);
return sizeof(struct rds_header) + RDS_CONG_MAP_BYTES;
}
rds_ib_xmit returns 8240
rds_send_xmit:
c_xmit_data_off = 0 + 8240 - 48 (rds header accounted only the first time)
= 8192
c_xmit_data_off < 65536 (sg->length), so calls rds_ib_xmit again
rds_ib_xmit returns 8240
rds_send_xmit:
c_xmit_data_off = 8192 + 8240 = 16432, calls rds_ib_xmit again
and so on (c_xmit_data_off 24672,32912,41152,49392,57632)
rds_ib_xmit returns 8240
On this iteration this sequence causes the BUG_ON in rds_send_xmit:
while (ret) {
tmp = min_t(int, ret, sg->length - conn->c_xmit_data_off);
[tmp = 65536 - 57632 = 7904]
conn->c_xmit_data_off += tmp;
[c_xmit_data_off = 57632 + 7904 = 65536]
ret -= tmp;
[ret = 8240 - 7904 = 336]
if (conn->c_xmit_data_off == sg->length) {
conn->c_xmit_data_off = 0;
sg++;
conn->c_xmit_sg++;
BUG_ON(ret != 0 &&
conn->c_xmit_sg == rm->data.op_nents);
[c_xmit_sg = 1, rm->data.op_nents = 1]
What the current fix does:
Since the congestion update over loopback is not actually transmitted
as a message, all that rds_ib_xmit needs to do is let the caller think
the full message has been transmitted and not return partial bytes.
It will return 8240 (RDS_CONG_MAP_BYTES+48) when PAGE_SIZE is 4Kb.
And 64Kb+48 when page size is 64Kb.
Reported-by: Josh Hunt <joshhunt00@gmail.com>
Tested-by: Honggang Li <honli@redhat.com>
Acked-by: Bang Nguyen <bang.nguyen@oracle.com>
Signed-off-by: Venkat Venkatsubra <venkat.x.venkatsubra@oracle.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
2013-12-03 03:41:39 +04:00
ret = max_t ( int , RDS_CONG_MAP_BYTES , scat - > length ) ;
return sizeof ( struct rds_header ) + ret ;
2010-03-11 16:49:59 +03:00
}
2009-02-24 18:30:33 +03:00
/* FIXME we may overallocate here */
if ( be32_to_cpu ( rm - > m_inc . i_hdr . h_len ) = = 0 )
i = 1 ;
else
i = ceil ( be32_to_cpu ( rm - > m_inc . i_hdr . h_len ) , RDS_FRAG_SIZE ) ;
work_alloc = rds_ib_ring_alloc ( & ic - > i_send_ring , i , & pos ) ;
if ( work_alloc = = 0 ) {
set_bit ( RDS_LL_SEND_FULL , & conn - > c_flags ) ;
rds_ib_stats_inc ( s_ib_tx_ring_full ) ;
ret = - ENOMEM ;
goto out ;
}
if ( ic - > i_flowctl ) {
2009-04-09 18:09:39 +04:00
credit_alloc = rds_ib_send_grab_credits ( ic , work_alloc , & posted , 0 , RDS_MAX_ADV_CREDIT ) ;
2009-02-24 18:30:33 +03:00
adv_credits + = posted ;
if ( credit_alloc < work_alloc ) {
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc - credit_alloc ) ;
work_alloc = credit_alloc ;
2010-01-16 02:55:26 +03:00
flow_controlled = 1 ;
2009-02-24 18:30:33 +03:00
}
if ( work_alloc = = 0 ) {
2009-04-09 18:09:38 +04:00
set_bit ( RDS_LL_SEND_FULL , & conn - > c_flags ) ;
2009-02-24 18:30:33 +03:00
rds_ib_stats_inc ( s_ib_tx_throttle ) ;
ret = - ENOMEM ;
goto out ;
}
}
/* map the message the first time we see it */
2010-03-02 01:03:09 +03:00
if ( ! ic - > i_data_op ) {
2010-01-28 05:04:18 +03:00
if ( rm - > data . op_nents ) {
rm - > data . op_count = ib_dma_map_sg ( dev ,
rm - > data . op_sg ,
rm - > data . op_nents ,
DMA_TO_DEVICE ) ;
rdsdebug ( " ic %p mapping rm %p: %d \n " , ic , rm , rm - > data . op_count ) ;
if ( rm - > data . op_count = = 0 ) {
2009-02-24 18:30:33 +03:00
rds_ib_stats_inc ( s_ib_tx_sg_mapping_failure ) ;
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
ret = - ENOMEM ; /* XXX ? */
goto out ;
}
} else {
2010-01-28 05:04:18 +03:00
rm - > data . op_count = 0 ;
2009-02-24 18:30:33 +03:00
}
rds_message_addref ( rm ) ;
2015-05-21 08:11:40 +03:00
rm - > data . op_dmasg = 0 ;
rm - > data . op_dmaoff = 0 ;
2010-03-02 01:03:09 +03:00
ic - > i_data_op = & rm - > data ;
2009-02-24 18:30:33 +03:00
/* Finalize the header */
if ( test_bit ( RDS_MSG_ACK_REQUIRED , & rm - > m_flags ) )
rm - > m_inc . i_hdr . h_flags | = RDS_FLAG_ACK_REQUIRED ;
if ( test_bit ( RDS_MSG_RETRANSMITTED , & rm - > m_flags ) )
rm - > m_inc . i_hdr . h_flags | = RDS_FLAG_RETRANSMITTED ;
/* If it has a RDMA op, tell the peer we did it. This is
* used by the peer to release use - once RDMA MRs . */
2010-03-02 01:11:53 +03:00
if ( rm - > rdma . op_active ) {
2009-02-24 18:30:33 +03:00
struct rds_ext_header_rdma ext_hdr ;
2010-03-02 01:11:53 +03:00
ext_hdr . h_rdma_rkey = cpu_to_be32 ( rm - > rdma . op_rkey ) ;
2009-02-24 18:30:33 +03:00
rds_message_add_extension ( & rm - > m_inc . i_hdr ,
RDS_EXTHDR_RDMA , & ext_hdr , sizeof ( ext_hdr ) ) ;
}
if ( rm - > m_rdma_cookie ) {
rds_message_add_rdma_dest_extension ( & rm - > m_inc . i_hdr ,
rds_rdma_cookie_key ( rm - > m_rdma_cookie ) ,
rds_rdma_cookie_offset ( rm - > m_rdma_cookie ) ) ;
}
/* Note - rds_ib_piggyb_ack clears the ACK_REQUIRED bit, so
* we should not do this unless we have a chance of at least
* sticking the header into the send ring . Which is why we
* should call rds_ib_ring_alloc first . */
rm - > m_inc . i_hdr . h_ack = cpu_to_be64 ( rds_ib_piggyb_ack ( ic ) ) ;
rds_message_make_checksum ( & rm - > m_inc . i_hdr ) ;
/*
* Update adv_credits since we reset the ACK_REQUIRED bit .
*/
2010-01-16 02:55:26 +03:00
if ( ic - > i_flowctl ) {
rds_ib_send_grab_credits ( ic , 0 , & posted , 1 , RDS_MAX_ADV_CREDIT - adv_credits ) ;
adv_credits + = posted ;
BUG_ON ( adv_credits > 255 ) ;
}
2010-03-11 16:49:55 +03:00
}
2009-02-24 18:30:33 +03:00
/* Sometimes you want to put a fence between an RDMA
* READ and the following SEND .
* We could either do this all the time
* or when requested by the user . Right now , we let
* the application choose .
*/
2010-03-02 01:11:53 +03:00
if ( rm - > rdma . op_active & & rm - > rdma . op_fence )
2009-02-24 18:30:33 +03:00
send_flags = IB_SEND_FENCE ;
2010-01-14 23:18:11 +03:00
/* Each frag gets a header. Msgs may be 0 bytes */
send = & ic - > i_sends [ pos ] ;
first = send ;
prev = NULL ;
2015-05-21 08:11:40 +03:00
scat = & ic - > i_data_op - > op_sg [ rm - > data . op_dmasg ] ;
2010-01-14 23:18:11 +03:00
i = 0 ;
do {
unsigned int len = 0 ;
/* Set up the header */
send - > s_wr . send_flags = send_flags ;
send - > s_wr . opcode = IB_WR_SEND ;
send - > s_wr . num_sge = 1 ;
send - > s_wr . next = NULL ;
send - > s_queued = jiffies ;
send - > s_op = NULL ;
2009-02-24 18:30:33 +03:00
2010-01-14 23:18:11 +03:00
send - > s_sge [ 0 ] . addr = ic - > i_send_hdrs_dma
+ ( pos * sizeof ( struct rds_header ) ) ;
send - > s_sge [ 0 ] . length = sizeof ( struct rds_header ) ;
memcpy ( & ic - > i_send_hdrs [ pos ] , & rm - > m_inc . i_hdr , sizeof ( struct rds_header ) ) ;
2009-02-24 18:30:33 +03:00
2010-01-14 23:18:11 +03:00
/* Set up the data, if present */
if ( i < work_alloc
2010-01-28 05:04:18 +03:00
& & scat ! = & rm - > data . op_sg [ rm - > data . op_count ] ) {
2015-05-21 08:11:40 +03:00
len = min ( RDS_FRAG_SIZE ,
ib_sg_dma_len ( dev , scat ) - rm - > data . op_dmaoff ) ;
2010-01-14 23:18:11 +03:00
send - > s_wr . num_sge = 2 ;
2009-02-24 18:30:33 +03:00
2015-05-21 08:11:40 +03:00
send - > s_sge [ 1 ] . addr = ib_sg_dma_address ( dev , scat ) ;
send - > s_sge [ 1 ] . addr + = rm - > data . op_dmaoff ;
2010-01-14 23:18:11 +03:00
send - > s_sge [ 1 ] . length = len ;
2009-02-24 18:30:33 +03:00
2010-01-14 23:18:11 +03:00
bytes_sent + = len ;
2015-05-21 08:11:40 +03:00
rm - > data . op_dmaoff + = len ;
if ( rm - > data . op_dmaoff = = ib_sg_dma_len ( dev , scat ) ) {
2010-01-14 23:18:11 +03:00
scat + + ;
2015-05-21 08:11:40 +03:00
rm - > data . op_dmasg + + ;
rm - > data . op_dmaoff = 0 ;
2010-01-14 23:18:11 +03:00
}
}
2009-02-24 18:30:33 +03:00
2010-01-20 08:25:26 +03:00
rds_ib_set_wr_signal_state ( ic , send , 0 ) ;
2009-02-24 18:30:33 +03:00
/*
* Always signal the last one if we ' re stopping due to flow control .
*/
2010-01-16 02:55:26 +03:00
if ( ic - > i_flowctl & & flow_controlled & & i = = ( work_alloc - 1 ) )
2009-02-24 18:30:33 +03:00
send - > s_wr . send_flags | = IB_SEND_SIGNALED | IB_SEND_SOLICITED ;
2010-07-15 00:55:35 +04:00
if ( send - > s_wr . send_flags & IB_SEND_SIGNALED )
nr_sig + + ;
2009-02-24 18:30:33 +03:00
rdsdebug ( " send %p wr %p num_sge %u next %p \n " , send ,
& send - > s_wr , send - > s_wr . num_sge , send - > s_wr . next ) ;
2010-01-16 02:55:26 +03:00
if ( ic - > i_flowctl & & adv_credits ) {
2009-02-24 18:30:33 +03:00
struct rds_header * hdr = & ic - > i_send_hdrs [ pos ] ;
/* add credit and redo the header checksum */
hdr - > h_credit = adv_credits ;
rds_message_make_checksum ( hdr ) ;
adv_credits = 0 ;
rds_ib_stats_inc ( s_ib_tx_credit_updates ) ;
}
if ( prev )
prev - > s_wr . next = & send - > s_wr ;
prev = send ;
pos = ( pos + 1 ) % ic - > i_send_ring . w_nr ;
2010-01-14 23:18:11 +03:00
send = & ic - > i_sends [ pos ] ;
i + + ;
} while ( i < work_alloc
2010-01-28 05:04:18 +03:00
& & scat ! = & rm - > data . op_sg [ rm - > data . op_count ] ) ;
2009-02-24 18:30:33 +03:00
/* Account the RDS header in the number of bytes we sent, but just once.
* The caller has no concept of fragmentation . */
if ( hdr_off = = 0 )
2010-01-14 23:18:11 +03:00
bytes_sent + = sizeof ( struct rds_header ) ;
2009-02-24 18:30:33 +03:00
/* if we finished the message then send completion owns it */
2010-01-28 05:04:18 +03:00
if ( scat = = & rm - > data . op_sg [ rm - > data . op_count ] ) {
2010-03-02 01:03:09 +03:00
prev - > s_op = ic - > i_data_op ;
2010-01-20 08:25:26 +03:00
prev - > s_wr . send_flags | = IB_SEND_SOLICITED ;
2015-08-23 01:45:30 +03:00
if ( ! ( prev - > s_wr . send_flags & IB_SEND_SIGNALED ) ) {
ic - > i_unsignaled_wrs = rds_ib_sysctl_max_unsig_wrs ;
prev - > s_wr . send_flags | = IB_SEND_SIGNALED ;
nr_sig + + ;
}
2010-03-02 01:03:09 +03:00
ic - > i_data_op = NULL ;
2009-02-24 18:30:33 +03:00
}
2010-01-14 23:18:11 +03:00
/* Put back wrs & credits we didn't use */
2009-02-24 18:30:33 +03:00
if ( i < work_alloc ) {
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc - i ) ;
work_alloc = i ;
}
if ( ic - > i_flowctl & & i < credit_alloc )
rds_ib_send_add_credits ( conn , credit_alloc - i ) ;
2010-07-15 00:55:35 +04:00
if ( nr_sig )
atomic_add ( nr_sig , & ic - > i_signaled_sends ) ;
2009-02-24 18:30:33 +03:00
/* XXX need to worry about failed_wr and partial sends. */
failed_wr = & first - > s_wr ;
ret = ib_post_send ( ic - > i_cm_id - > qp , & first - > s_wr , & failed_wr ) ;
rdsdebug ( " ic %p first %p (wr %p) ret %d wr %p \n " , ic ,
first , & first - > s_wr , ret , failed_wr ) ;
BUG_ON ( failed_wr ! = & first - > s_wr ) ;
if ( ret ) {
printk ( KERN_WARNING " RDS/IB: ib_post_send to %pI4 "
" returned %d \n " , & conn - > c_faddr , ret ) ;
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
2010-07-15 00:55:35 +04:00
rds_ib_sub_signaled ( ic , nr_sig ) ;
2010-03-02 01:03:09 +03:00
if ( prev - > s_op ) {
ic - > i_data_op = prev - > s_op ;
prev - > s_op = NULL ;
2009-02-24 18:30:33 +03:00
}
2010-03-11 16:49:55 +03:00
rds_ib_conn_error ( ic - > conn , " ib_post_send failed \n " ) ;
2009-02-24 18:30:33 +03:00
goto out ;
}
2010-01-14 23:18:11 +03:00
ret = bytes_sent ;
2009-02-24 18:30:33 +03:00
out :
BUG_ON ( adv_credits ) ;
return ret ;
}
2010-01-13 01:33:38 +03:00
/*
* Issue atomic operation .
* A simplified version of the rdma case , we always map 1 SG , and
* only 8 bytes , for the return value from the atomic operation .
*/
2010-03-02 01:03:09 +03:00
int rds_ib_xmit_atomic ( struct rds_connection * conn , struct rm_atomic_op * op )
2010-01-13 01:33:38 +03:00
{
struct rds_ib_connection * ic = conn - > c_transport_data ;
struct rds_ib_send_work * send = NULL ;
struct ib_send_wr * failed_wr ;
struct rds_ib_device * rds_ibdev ;
u32 pos ;
u32 work_alloc ;
int ret ;
2010-07-15 00:55:35 +04:00
int nr_sig = 0 ;
2010-01-13 01:33:38 +03:00
rds_ibdev = ib_get_client_data ( ic - > i_cm_id - > device , & rds_ib_client ) ;
work_alloc = rds_ib_ring_alloc ( & ic - > i_send_ring , 1 , & pos ) ;
if ( work_alloc ! = 1 ) {
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
rds_ib_stats_inc ( s_ib_tx_ring_full ) ;
ret = - ENOMEM ;
goto out ;
}
/* address of send request in ring */
send = & ic - > i_sends [ pos ] ;
send - > s_queued = jiffies ;
if ( op - > op_type = = RDS_ATOMIC_TYPE_CSWP ) {
2015-10-08 11:16:33 +03:00
send - > s_atomic_wr . wr . opcode = IB_WR_MASKED_ATOMIC_CMP_AND_SWP ;
send - > s_atomic_wr . compare_add = op - > op_m_cswp . compare ;
send - > s_atomic_wr . swap = op - > op_m_cswp . swap ;
send - > s_atomic_wr . compare_add_mask = op - > op_m_cswp . compare_mask ;
send - > s_atomic_wr . swap_mask = op - > op_m_cswp . swap_mask ;
2010-01-13 01:33:38 +03:00
} else { /* FADD */
2015-10-08 11:16:33 +03:00
send - > s_atomic_wr . wr . opcode = IB_WR_MASKED_ATOMIC_FETCH_AND_ADD ;
send - > s_atomic_wr . compare_add = op - > op_m_fadd . add ;
send - > s_atomic_wr . swap = 0 ;
send - > s_atomic_wr . compare_add_mask = op - > op_m_fadd . nocarry_mask ;
send - > s_atomic_wr . swap_mask = 0 ;
2010-01-13 01:33:38 +03:00
}
2010-07-15 00:55:35 +04:00
nr_sig = rds_ib_set_wr_signal_state ( ic , send , op - > op_notify ) ;
2015-10-08 11:16:33 +03:00
send - > s_atomic_wr . wr . num_sge = 1 ;
send - > s_atomic_wr . wr . next = NULL ;
send - > s_atomic_wr . remote_addr = op - > op_remote_addr ;
send - > s_atomic_wr . rkey = op - > op_rkey ;
2010-05-12 03:15:35 +04:00
send - > s_op = op ;
rds_message_addref ( container_of ( send - > s_op , struct rds_message , atomic ) ) ;
2010-01-13 01:33:38 +03:00
/* map 8 byte retval buffer to the device */
ret = ib_dma_map_sg ( ic - > i_cm_id - > device , op - > op_sg , 1 , DMA_FROM_DEVICE ) ;
rdsdebug ( " ic %p mapping atomic op %p. mapped %d pg \n " , ic , op , ret ) ;
if ( ret ! = 1 ) {
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
rds_ib_stats_inc ( s_ib_tx_sg_mapping_failure ) ;
ret = - ENOMEM ; /* XXX ? */
goto out ;
}
/* Convert our struct scatterlist to struct ib_sge */
send - > s_sge [ 0 ] . addr = ib_sg_dma_address ( ic - > i_cm_id - > device , op - > op_sg ) ;
send - > s_sge [ 0 ] . length = ib_sg_dma_len ( ic - > i_cm_id - > device , op - > op_sg ) ;
2015-07-31 02:22:26 +03:00
send - > s_sge [ 0 ] . lkey = ic - > i_pd - > local_dma_lkey ;
2010-01-13 01:33:38 +03:00
rdsdebug ( " rva %Lx rpa %Lx len %u \n " , op - > op_remote_addr ,
send - > s_sge [ 0 ] . addr , send - > s_sge [ 0 ] . length ) ;
2010-07-15 00:55:35 +04:00
if ( nr_sig )
atomic_add ( nr_sig , & ic - > i_signaled_sends ) ;
2015-10-08 11:16:33 +03:00
failed_wr = & send - > s_atomic_wr . wr ;
ret = ib_post_send ( ic - > i_cm_id - > qp , & send - > s_atomic_wr . wr , & failed_wr ) ;
2010-01-13 01:33:38 +03:00
rdsdebug ( " ic %p send %p (wr %p) ret %d wr %p \n " , ic ,
2015-10-08 11:16:33 +03:00
send , & send - > s_atomic_wr , ret , failed_wr ) ;
BUG_ON ( failed_wr ! = & send - > s_atomic_wr . wr ) ;
2010-01-13 01:33:38 +03:00
if ( ret ) {
printk ( KERN_WARNING " RDS/IB: atomic ib_post_send to %pI4 "
" returned %d \n " , & conn - > c_faddr , ret ) ;
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
2010-07-15 00:55:35 +04:00
rds_ib_sub_signaled ( ic , nr_sig ) ;
2010-01-13 01:33:38 +03:00
goto out ;
}
2015-10-08 11:16:33 +03:00
if ( unlikely ( failed_wr ! = & send - > s_atomic_wr . wr ) ) {
2010-01-13 01:33:38 +03:00
printk ( KERN_WARNING " RDS/IB: atomic ib_post_send() rc=%d, but failed_wqe updated! \n " , ret ) ;
2015-10-08 11:16:33 +03:00
BUG_ON ( failed_wr ! = & send - > s_atomic_wr . wr ) ;
2010-01-13 01:33:38 +03:00
}
out :
return ret ;
}
2010-03-02 01:11:53 +03:00
int rds_ib_xmit_rdma ( struct rds_connection * conn , struct rm_rdma_op * op )
2009-02-24 18:30:33 +03:00
{
struct rds_ib_connection * ic = conn - > c_transport_data ;
struct rds_ib_send_work * send = NULL ;
struct rds_ib_send_work * first ;
struct rds_ib_send_work * prev ;
struct ib_send_wr * failed_wr ;
struct scatterlist * scat ;
unsigned long len ;
2010-03-02 01:11:53 +03:00
u64 remote_addr = op - > op_remote_addr ;
2010-05-19 02:44:50 +04:00
u32 max_sge = ic - > rds_ibdev - > max_sge ;
2009-02-24 18:30:33 +03:00
u32 pos ;
u32 work_alloc ;
u32 i ;
u32 j ;
int sent ;
int ret ;
int num_sge ;
2010-07-15 00:55:35 +04:00
int nr_sig = 0 ;
2009-02-24 18:30:33 +03:00
2010-03-02 01:03:09 +03:00
/* map the op the first time we see it */
2010-03-02 01:11:53 +03:00
if ( ! op - > op_mapped ) {
op - > op_count = ib_dma_map_sg ( ic - > i_cm_id - > device ,
op - > op_sg , op - > op_nents , ( op - > op_write ) ?
DMA_TO_DEVICE : DMA_FROM_DEVICE ) ;
rdsdebug ( " ic %p mapping op %p: %d \n " , ic , op , op - > op_count ) ;
if ( op - > op_count = = 0 ) {
2009-02-24 18:30:33 +03:00
rds_ib_stats_inc ( s_ib_tx_sg_mapping_failure ) ;
ret = - ENOMEM ; /* XXX ? */
goto out ;
}
2010-03-02 01:11:53 +03:00
op - > op_mapped = 1 ;
2009-02-24 18:30:33 +03:00
}
/*
* Instead of knowing how to return a partial rdma read / write we insist that there
* be enough work requests to send the entire message .
*/
2010-05-19 02:44:50 +04:00
i = ceil ( op - > op_count , max_sge ) ;
2009-02-24 18:30:33 +03:00
work_alloc = rds_ib_ring_alloc ( & ic - > i_send_ring , i , & pos ) ;
if ( work_alloc ! = i ) {
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
rds_ib_stats_inc ( s_ib_tx_ring_full ) ;
ret = - ENOMEM ;
goto out ;
}
send = & ic - > i_sends [ pos ] ;
first = send ;
prev = NULL ;
2010-03-02 01:11:53 +03:00
scat = & op - > op_sg [ 0 ] ;
2009-02-24 18:30:33 +03:00
sent = 0 ;
2010-03-02 01:11:53 +03:00
num_sge = op - > op_count ;
2009-02-24 18:30:33 +03:00
2010-03-02 01:11:53 +03:00
for ( i = 0 ; i < work_alloc & & scat ! = & op - > op_sg [ op - > op_count ] ; i + + ) {
2009-02-24 18:30:33 +03:00
send - > s_wr . send_flags = 0 ;
send - > s_queued = jiffies ;
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send - > s_op = NULL ;
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nr_sig + = rds_ib_set_wr_signal_state ( ic , send , op - > op_notify ) ;
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send - > s_wr . opcode = op - > op_write ? IB_WR_RDMA_WRITE : IB_WR_RDMA_READ ;
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send - > s_rdma_wr . remote_addr = remote_addr ;
send - > s_rdma_wr . rkey = op - > op_rkey ;
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if ( num_sge > max_sge ) {
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send - > s_rdma_wr . wr . num_sge = max_sge ;
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num_sge - = max_sge ;
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} else {
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send - > s_rdma_wr . wr . num_sge = num_sge ;
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}
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send - > s_rdma_wr . wr . next = NULL ;
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if ( prev )
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prev - > s_rdma_wr . wr . next = & send - > s_rdma_wr . wr ;
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for ( j = 0 ; j < send - > s_rdma_wr . wr . num_sge & &
scat ! = & op - > op_sg [ op - > op_count ] ; j + + ) {
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len = ib_sg_dma_len ( ic - > i_cm_id - > device , scat ) ;
send - > s_sge [ j ] . addr =
ib_sg_dma_address ( ic - > i_cm_id - > device , scat ) ;
send - > s_sge [ j ] . length = len ;
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send - > s_sge [ j ] . lkey = ic - > i_pd - > local_dma_lkey ;
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sent + = len ;
rdsdebug ( " ic %p sent %d remote_addr %llu \n " , ic , sent , remote_addr ) ;
remote_addr + = len ;
scat + + ;
}
rdsdebug ( " send %p wr %p num_sge %u next %p \n " , send ,
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& send - > s_rdma_wr . wr ,
send - > s_rdma_wr . wr . num_sge ,
send - > s_rdma_wr . wr . next ) ;
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prev = send ;
if ( + + send = = & ic - > i_sends [ ic - > i_send_ring . w_nr ] )
send = ic - > i_sends ;
}
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/* give a reference to the last op */
if ( scat = = & op - > op_sg [ op - > op_count ] ) {
prev - > s_op = op ;
rds_message_addref ( container_of ( op , struct rds_message , rdma ) ) ;
}
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if ( i < work_alloc ) {
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc - i ) ;
work_alloc = i ;
}
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if ( nr_sig )
atomic_add ( nr_sig , & ic - > i_signaled_sends ) ;
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failed_wr = & first - > s_rdma_wr . wr ;
ret = ib_post_send ( ic - > i_cm_id - > qp , & first - > s_rdma_wr . wr , & failed_wr ) ;
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rdsdebug ( " ic %p first %p (wr %p) ret %d wr %p \n " , ic ,
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first , & first - > s_rdma_wr . wr , ret , failed_wr ) ;
BUG_ON ( failed_wr ! = & first - > s_rdma_wr . wr ) ;
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if ( ret ) {
printk ( KERN_WARNING " RDS/IB: rdma ib_post_send to %pI4 "
" returned %d \n " , & conn - > c_faddr , ret ) ;
rds_ib_ring_unalloc ( & ic - > i_send_ring , work_alloc ) ;
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rds_ib_sub_signaled ( ic , nr_sig ) ;
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goto out ;
}
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if ( unlikely ( failed_wr ! = & first - > s_rdma_wr . wr ) ) {
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printk ( KERN_WARNING " RDS/IB: ib_post_send() rc=%d, but failed_wqe updated! \n " , ret ) ;
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BUG_ON ( failed_wr ! = & first - > s_rdma_wr . wr ) ;
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}
out :
return ret ;
}
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void rds_ib_xmit_path_complete ( struct rds_conn_path * cp )
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{
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struct rds_connection * conn = cp - > cp_conn ;
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struct rds_ib_connection * ic = conn - > c_transport_data ;
/* We may have a pending ACK or window update we were unable
* to send previously ( due to flow control ) . Try again . */
rds_ib_attempt_ack ( ic ) ;
}