[dpdk-dev] Multi-thread mempool usage

Matteo Lanzuisi m.lanzuisi at resi.it
Mon Aug 27 17:34:35 CEST 2018


Hi,

I apologize for the last email, it was a false positive, sometimes it 
went good and sometimes not.
The real problem was a memory overflow in my code, where part of a 
memzone was overwritten by a memcpy. This was never found in RedHat 6 
and dpdk-2.2.0. I think this is because of some hugepage management 
changes between 2.2.0 and 17.07 dpdk version.

Thank you for you time and patience,
Matteo

Il 24/08/2018 18:47, Wiles, Keith ha scritto:
>
>> On Aug 24, 2018, at 9:44 AM, Matteo Lanzuisi <m.lanzuisi at resi.it> wrote:
>>
>> Hi,
>>
>> I used valgrind again for a very long time, and it told me nothing strange is happening on my code.
>> After it, I changed my code this way
>>
>>   unsigned            lcore_id_start = rte_lcore_id();
>> RTE_LCORE_FOREACH(lcore_id)
>> {
>>          if (lcore_id_start != lcore_id) // <--------- before this change, every lcore could use it own mempool and enqueue to its own ring
> Something in the back of my head tells me this is correct, but I have no real reason :-(
>
> If this works then I guess it is OK, but it would be nice to understand why it works with this fix. Unless you have another thread running on this lcore doing a get/put I do not see the problem.
>>          {
>>                  new_work = NULL;
>>                  result = rte_mempool_get(cea_main_lcore_conf[lcore_id].de_conf.cmd_pool, (VOID_P *) &new_work);        // mempools are created one for each logical core
>>                  if (result == 0)
>>                 {
>>                      if (((uint64_t)(new_work)) < 0x7f0000000000)
>>                          printf("Result %d, lcore di partenza %u, lcore di ricezione %u, pointer %p\n", result, rte_lcore_id(), lcore_id, new_work);    // debug print, on my server it should never happen but with multi-thread happens always on the last logical core!!!!
>>                      new_work->command = command; // usage of the memory gotten from the mempool... <<<<<- here is where the application crashes!!!!
>>                      result = rte_ring_enqueue(cea_main_lcore_conf[lcore_id].de_conf.cmd_ring, (VOID_P) new_work);    // enqueues the gotten buffer on the rings       of all lcores
>>                      // check on result value ...
>>                  }
>>                  else
>>                  {
>>                      // do something if result != 0 ...
>>                  }
>>          }
>>          else
>>          {
>>                // don't use mempool but call a function instead ....
>>          }
>> }
>>
>> and now it all goes well.
>> It is possibile that sending to itself could generate this issue?
>>
>> Regards,
>> Matteo
>>
>> Il 21/08/2018 16:46, Matteo Lanzuisi ha scritto:
>>> Il 21/08/2018 14:51, Wiles, Keith ha scritto:
>>>>> On Aug 21, 2018, at 7:44 AM, Matteo Lanzuisi <m.lanzuisi at resi.it> wrote:
>>>>>
>>>>> Il 21/08/2018 14:17, Wiles, Keith ha scritto:
>>>>>>> On Aug 21, 2018, at 7:01 AM, Matteo Lanzuisi <m.lanzuisi at resi.it> wrote:
>>>>>>>
>>>>>>> Hi
>>>>>>>
>>>>>>> Il 20/08/2018 18:03, Wiles, Keith ha scritto:
>>>>>>>>> On Aug 20, 2018, at 9:47 AM, Matteo Lanzuisi <m.lanzuisi at resi.it>
>>>>>>>>>    wrote:
>>>>>>>>>
>>>>>>>>> Hello Olivier,
>>>>>>>>>
>>>>>>>>> Il 13/08/2018 23:54, Olivier Matz ha scritto:
>>>>>>>>>
>>>>>>>>>> Hello Matteo,
>>>>>>>>>>
>>>>>>>>>> On Mon, Aug 13, 2018 at 03:20:44PM +0200, Matteo Lanzuisi wrote:
>>>>>>>>>>
>>>>>>>>>>> Any suggestion? any idea about this behaviour?
>>>>>>>>>>>
>>>>>>>>>>> Il 08/08/2018 11:56, Matteo Lanzuisi ha scritto:
>>>>>>>>>>>
>>>>>>>>>>>> Hi all,
>>>>>>>>>>>>
>>>>>>>>>>>> recently I began using "dpdk-17.11-11.el7.x86_64" rpm (RedHat rpm) on
>>>>>>>>>>>> RedHat 7.5 kernel 3.10.0-862.6.3.el7.x86_64 as a porting of an
>>>>>>>>>>>> application from RH6 to RH7. On RH6 I used dpdk-2.2.0.
>>>>>>>>>>>>
>>>>>>>>>>>> This application is made up by one or more threads (each one on a
>>>>>>>>>>>> different logical core) reading packets from i40e interfaces.
>>>>>>>>>>>>
>>>>>>>>>>>> Each thread can call the following code lines when receiving a specific
>>>>>>>>>>>> packet:
>>>>>>>>>>>>
>>>>>>>>>>>> RTE_LCORE_FOREACH(lcore_id)
>>>>>>>>>>>> {
>>>>>>>>>>>>           result =
>>>>>>>>>>>> rte_mempool_get(cea_main_lcore_conf[lcore_id].de_conf.cmd_pool, (VOID_P
>>>>>>>>>>>> *) &new_work);        // mempools are created one for each logical core
>>>>>>>>>>>>           if (((uint64_t)(new_work)) < 0x7f0000000000)
>>>>>>>>>>>>               printf("Result %d, lcore di partenza %u, lcore di ricezione
>>>>>>>>>>>> %u, pointer %p\n", result, rte_lcore_id(), lcore_id, new_work);    //
>>>>>>>>>>>> debug print, on my server it should never happen but with multi-thread
>>>>>>>>>>>> happens always on the last logical core!!!!
>>>>>>>>>>>>
>>>>>>>>>> Here, checking the value of new_work looks wrong to me, before
>>>>>>>>>> ensuring that result == 0. At least, new_work should be set to
>>>>>>>>>> NULL before calling rte_mempool_get().
>>>>>>>>>>
>>>>>>>>> I put the check after result == 0, and just before the rte_mempool_get() I set new_work to NULL, but nothing changed.
>>>>>>>>> The first time something goes wrong the print is
>>>>>>>>>
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 635, pointer 0x880002
>>>>>>>>>
>>>>>>>>> Sorry for the italian language print :) it means that application is sending a message from the logical core 1 to the logical core 2, it's the 635th time, the result is 0 and the pointer is 0x880002 while all pointers before were 0x7ffxxxxxx.
>>>>>>>>> One strange thing is that this behaviour happens always from the logical core 1 to the logical core 2 when the counter is 635!!! (Sending messages from 2 to 1 or 1 to 1 or 2 to 2 is all ok)
>>>>>>>>> Another strange thing is that pointers from counter 636 to 640 are NULL, and from 641 begin again to be good... as you can see here following (I attached the result of a test without the "if" of the check on the value of new_work, and only for messages from the lcore 1 to lcore 2)
>>>>>>>>>
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 627, pointer 0x7ffe8a261880
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 628, pointer 0x7ffe8a261900
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 629, pointer 0x7ffe8a261980
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 630, pointer 0x7ffe8a261a00
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 631, pointer 0x7ffe8a261a80
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 632, pointer 0x7ffe8a261b00
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 633, pointer 0x7ffe8a261b80
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 634, pointer 0x7ffe8a261c00
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 635, pointer 0x880002
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 636, pointer (nil)
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 637, pointer (nil)
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 638, pointer (nil)
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 639, pointer (nil)
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 640, pointer (nil)
>>>>>>>>>
>>>>>>>> This sure does seem like a memory over write problem, with maybe a memset(0) in the mix as well. Have you tried using hardware break points with the 0x880002 or 0x00 being written into this range?
>>>>>>> I put some breakpoints and found this:
>>>>>>>
>>>>>>> 1 - using pointer 0x880002, the output is (the pointer comes in the middle of two rwlock):
>>>>>>>
>>>>>>> (gdb) awatch *0x880002
>>>>>>> Hardware access (read/write) watchpoint 1: *0x880002
>>>>>>> (gdb) c
>>>>>>> Continuing.
>>>>>>> [New Thread 0x7fffeded5700 (LWP 19969)]
>>>>>>> [New Thread 0x7fffed6d4700 (LWP 19970)]
>>>>>>> [New Thread 0x7fffeced3700 (LWP 19971)]
>>>>>>> [New Thread 0x7fffec6d2700 (LWP 19972)]
>>>>>>> [New Thread 0x7fffebed1700 (LWP 19973)]
>>>>>>> [New Thread 0x7fffeb6d0700 (LWP 19974)]
>>>>>>> Hardware access (read/write) watchpoint 1: *0x880002
>>>>>>>
>>>>>>> Value = 0
>>>>>>> rte_rwlock_init (rwl=0x880000 <ikco_sdkif_actlist_lock+677024>)
>>>>>>>       at /usr/share/dpdk/x86_64-default-linuxapp-gcc/include/generic/rte_rwlock.h:81
>>>>>>> 81    }
>>>>>>> (gdb) c
>>>>>>> Continuing.
>>>>>>> Hardware access (read/write) watchpoint 1: *0x880002
>>>>>> These are most likely false positive hits and not the issue.
>>>>>>> Value = 0
>>>>>>> rte_rwlock_init (rwl=0x880004 <ikco_sdkif_actlist_lock+677028>)
>>>>>>>       at /usr/share/dpdk/x86_64-default-linuxapp-gcc/include/generic/rte_rwlock.h:81
>>>>>>> 81    }
>>>>>>> (gdb) c
>>>>>>> Continuing.
>>>>>>>
>>>>>>> 2 - when using pointers minor or equal than 0x7ffe8a261d64 (in the range of the mempool), gdb tells nothing about them (I don't use them, I just get them from the pool and the put them in the pool again);
>>>>>>>
>>>>>>> 3 - when using pointer 0x7ffe8a261d65 or greater, this is the output of gdb:
>>>>>>>
>>>>>>> (gdb) awatch *(int *)0x7ffe8a261d65
>>>>>>> Hardware access (read/write) watchpoint 1: *(int *)0x7ffe8a261d65
>>>>>>> (gdb) c
>>>>>>> Continuing.
>>>>>>> [New Thread 0x7fffeded5700 (LWP 17689)]
>>>>>>> [New Thread 0x7fffed6d4700 (LWP 17690)]
>>>>>>> [New Thread 0x7fffeced3700 (LWP 17691)]
>>>>>>> [New Thread 0x7fffec6d2700 (LWP 17692)]
>>>>>>> [New Thread 0x7fffebed1700 (LWP 17693)]
>>>>>>> [New Thread 0x7fffeb6d0700 (LWP 17694)]
>>>>>>> Hardware access (read/write) watchpoint 1: *(int *)0x7ffe8a261d65
>>>>>>>
>>>>>>> Value = 0
>>>>>>> 0x00007ffff3798c21 in mempool_add_elem (mp=mp at entry=0x7ffebfd8d6c0, obj=obj at entry=0x7ffe8a261d80,
>>>>>>>       iova=iova at entry=4465237376) at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:140
>>>>>>> 140        STAILQ_INSERT_TAIL(&mp->elt_list, hdr, next);
>>>>>>> (gdb) where
>>>>>>> #0  0x00007ffff3798c21 in mempool_add_elem (mp=mp at entry=0x7ffebfd8d6c0, obj=obj at entry=0x7ffe8a261d80,
>>>>>>>       iova=iova at entry=4465237376) at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:140
>>>>>>> #1  0x00007ffff37990f0 in rte_mempool_populate_iova (mp=0x7ffebfd8d6c0, vaddr=0x7ffe8a23d540 "",
>>>>>>>       iova=4465087808, len=8388480, free_cb=<optimized out>, opaque=<optimized out>)
>>>>>>>       at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:424
>>>>>>> #2  0x00007ffff379967d in rte_mempool_populate_default (mp=mp at entry=0x7ffebfd8d6c0)
>>>>>>>       at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:624
>>>>>>> #3  0x00007ffff3799e89 in rte_mempool_create (name=<optimized out>, n=<optimized out>,
>>>>>>>       elt_size=<optimized out>, cache_size=<optimized out>, private_data_size=<optimized out>,
>>>>>>>       mp_init=0x7ffff444e410 <rte_pktmbuf_pool_init>, mp_init_arg=0x0,
>>>>>>>       obj_init=0x7ffff444e330 <rte_pktmbuf_init>, obj_init_arg=0x0, socket_id=0, flags=0)
>>>>>>>       at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:952
>>>>>>> #4  0x0000000000548a52 in main (argc=16, argv=0x7fffffffe3c8)
>>>>>>>       at /root/gemini-cea-4.6.0/msrc/sys/com/linux-dpdk/cea-app/../../../../sys/com/linux-dpdk/cea-app/main.c:2360
>>>>>>> (gdb) c
>>>>>>> Continuing.
>>>>>>> Hardware access (read/write) watchpoint 1: *(int *)0x7ffe8a261d65
>>>>>> This seems to be just creating a pktmbuf pool. The STAILQ_INSERT_TAILQ is just putting the mempool on the main tailq list for mempools in DPDK.
>>>>>>
>>>>>>> Old value = 0
>>>>>>> New value = -402653184
>>>>>>> 0x00007ffff3798c24 in mempool_add_elem (mp=mp at entry=0x7ffebfd8d6c0, obj=obj at entry=0x7ffe8a261e00,
>>>>>>>       iova=iova at entry=4465237504) at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:140
>>>>>>> 140        STAILQ_INSERT_TAIL(&mp->elt_list, hdr, next);
>>>>>>> (gdb) where
>>>>>>> #0  0x00007ffff3798c24 in mempool_add_elem (mp=mp at entry=0x7ffebfd8d6c0, obj=obj at entry=0x7ffe8a261e00,
>>>>>>>       iova=iova at entry=4465237504) at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:140
>>>>>>> #1  0x00007ffff37990f0 in rte_mempool_populate_iova (mp=0x7ffebfd8d6c0, vaddr=0x7ffe8a23d540 "",
>>>>>>>       iova=4465087808, len=8388480, free_cb=<optimized out>, opaque=<optimized out>)
>>>>>>>       at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:424
>>>>>>> #2  0x00007ffff379967d in rte_mempool_populate_default (mp=mp at entry=0x7ffebfd8d6c0)
>>>>>>>       at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:624
>>>>>>> #3  0x00007ffff3799e89 in rte_mempool_create (name=<optimized out>, n=<optimized out>,
>>>>>>>       elt_size=<optimized out>, cache_size=<optimized out>, private_data_size=<optimized out>,
>>>>>>>       mp_init=0x7ffff444e410 <rte_pktmbuf_pool_init>, mp_init_arg=0x0,
>>>>>>>       obj_init=0x7ffff444e330 <rte_pktmbuf_init>, obj_init_arg=0x0, socket_id=0, flags=0)
>>>>>>>       at /usr/src/debug/dpdk-17.11/lib/librte_mempool/rte_mempool.c:952
>>>>>>> #4  0x0000000000548a52 in main (argc=16, argv=0x7fffffffe3c8)
>>>>>>>       at /root/gemini-cea-4.6.0/msrc/sys/com/linux-dpdk/cea-app/../../../../sys/com/linux-dpdk/cea-app/main.c:2360
>>>>>>> (gdb) c
>>>>>>> Continuing.
>>>>>>>
>>>>>>> What do you think? It is normal that the mempool_add_elem is called only on certain pointers of the mempool?
>>>>>>> I attached the initialization of the mempool. Can this be wrong?
>>>>>> All mempools with a cache size will have two queue to put memory on, one is the per lcore list and that one is used as a fast access queue. When the cache becomes empty or has more entries then the cache was created with then it pushed the extra entries to the main list of mempool data.
>>>>> Why do you say "mempools with a cache size" ? In my initialization this mempool has cache_size = 0
>>>> If you give a cache size then you will have a cache list per lcore, in your case you do not have a cache. BTW not having a cache will effect performance a great deal.
>>>>
>>>>>> The only time that rwlock is touched is to get/put items on the main mempool.
>>>>>>
>>>>>> Just as a data point have you tried this app on 18.08 yet? I do not see the problem yet, sorry.
>>>>> I'll try 18.08 and let you know
>>> Hi ,
>>>
>>> I tried 18.08 but nothing changed about the described behaviour. I'm thinking about some overflow in my code lines but using valgrind on my application tells me nothing more and it seems strange to me.
>>> Is there any particular way to debug memory issues on dpdk application apart from valgrind?
>>>
>>> Regards,
>>> Matteo
>>>
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 641, pointer 0x7ffe8a262b00
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 642, pointer 0x7ffe8a262b80
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 643, pointer 0x7ffe8a262d00
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 644, pointer 0x7ffe8a262d80
>>>>>>>>> Result 0, lcore di partenza 1, lcore di ricezione 2, counter 645, pointer 0x7ffe8a262e00
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>>>>           if (result == 0)
>>>>>>>>>>>>           {
>>>>>>>>>>>>               new_work->command = command; // usage of the memory gotten
>>>>>>>>>>>> from the mempool... <<<<<- here is where the application crashes!!!!
>>>>>>>>>>>>
>>>>>>>>>> Do you know why it crashes? Is it that new_work is NULL?
>>>>>>>>>>
>>>>>>>>> The pointer is not NULL but is not sequential to the others (0x880002 as written before in this email). It seems to be in a memory zone not in DPDK hugepages or something similar.
>>>>>>>>> If I use this pointer the application crashes.
>>>>>>>>>
>>>>>>>>>> Can you check how the mempool is initialized? It should be in multi
>>>>>>>>>> consumer and depending on your use case, single or multi producer.
>>>>>>>>>>
>>>>>>>>> Here is the initialization of this mempool
>>>>>>>>>
>>>>>>>>> cea_main_cmd_pool[i] = rte_mempool_create(pool_name,
>>>>>>>>>               (unsigned int) (ikco_cmd_buffers - 1), // 65536 - 1 in this case
>>>>>>>>>               sizeof (CEA_DECODE_CMD_T), // 24 bytes
>>>>>>>>>               0, 0,
>>>>>>>>>               rte_pktmbuf_pool_init, NULL,
>>>>>>>>>               rte_pktmbuf_init, NULL,
>>>>>>>>>               rte_socket_id(), 0);
>>>>>>>>>
>>>>>>>>>> Another thing that could be checked: at all the places where you
>>>>>>>>>> return your work object to the mempool, you should add a check
>>>>>>>>>> that it is not NULL. Or just enabling RTE_LIBRTE_MEMPOOL_DEBUG
>>>>>>>>>> could do the trick: it adds some additional checks when doing
>>>>>>>>>> mempool operations.
>>>>>>>>>>
>>>>>>>>> I think I have already answered this point with the prints up in the email.
>>>>>>>>>
>>>>>>>>> What do you think about this behaviour?
>>>>>>>>>
>>>>>>>>> Regards,
>>>>>>>>> Matteo
>>>>>>>>>
>>>>>>>>>>>>               result =
>>>>>>>>>>>> rte_ring_enqueue(cea_main_lcore_conf[lcore_id].de_conf.cmd_ring,
>>>>>>>>>>>> (VOID_P) new_work);    // enqueues the gotten buffer on the rings of all
>>>>>>>>>>>> lcores
>>>>>>>>>>>>               // check on result value ...
>>>>>>>>>>>>           }
>>>>>>>>>>>>           else
>>>>>>>>>>>>           {
>>>>>>>>>>>>               // do something if result != 0 ...
>>>>>>>>>>>>           }
>>>>>>>>>>>> }
>>>>>>>>>>>>
>>>>>>>>>>>> This code worked perfectly (never had an issue) on dpdk-2.2.0, while if
>>>>>>>>>>>> I use more than 1 thread doing these operations on dpdk-17.11 it happens
>>>>>>>>>>>> that after some times the "new_work" pointer is not a good one, and the
>>>>>>>>>>>> application crashes when using that pointer.
>>>>>>>>>>>>
>>>>>>>>>>>> It seems that these lines cannot be used by more than one thread
>>>>>>>>>>>> simultaneously. I also used many 2017 and 2018 dpdk versions without
>>>>>>>>>>>> success.
>>>>>>>>>>>>
>>>>>>>>>>>> Is this code possible on the new dpdk versions? Or have I to change my
>>>>>>>>>>>> application so that this code is called just by one lcore at a time?
>>>>>>>>>>>>
>>>>>>>>>> Assuming the mempool is properly initialized, I don't see any reason
>>>>>>>>>> why it would not work. There has been a lot of changes in mempool between
>>>>>>>>>> dpdk-2.2.0 and dpdk-17.11, but this behavior should remain the same.
>>>>>>>>>>
>>>>>>>>>> If the comments above do not help to solve the issue, it could be helpful
>>>>>>>>>> to try to reproduce the issue in a minimal program, so we can help to
>>>>>>>>>> review it.
>>>>>>>>>>
>>>>>>>>>> Regards,
>>>>>>>>>> Olivier
>>>>>>>>>>
>>>>>>>> Regards,
>>>>>>>> Keith
>>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>> Regards,
>>>>>>>
>>>>>>> Matteo
>>>>>>>
>>>>>> Regards,
>>>>>> Keith
>>>>>>
>>>>>>
>>>>>>
>>>>> Regards,
>>>>> Matteo
>>>> Regards,
>>>> Keith
>>>>
>>>>
>>>
> Regards,
> Keith
>
>
>


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